package excelize import ( "container/list" "math" "path/filepath" "strings" "testing" "github.com/stretchr/testify/assert" "github.com/xuri/efp" ) func prepareCalcData(cellData [][]interface{}) *File { f := NewFile() for r, row := range cellData { for c, value := range row { cell, _ := CoordinatesToCellName(c+1, r+1) _ = f.SetCellValue("Sheet1", cell, value) } } return f } func TestCalcCellValue(t *testing.T) { cellData := [][]interface{}{ {1, 4, nil, "Month", "Team", "Sales"}, {2, 5, nil, "Jan", "North 1", 36693}, {3, nil, nil, "Jan", "North 2", 22100}, {0, nil, nil, "Jan", "South 1", 53321}, {nil, nil, nil, "Jan", "South 2", 34440}, {nil, nil, nil, "Feb", "North 1", 29889}, {nil, nil, nil, "Feb", "North 2", 50090}, {nil, nil, nil, "Feb", "South 1", 32080}, {nil, nil, nil, "Feb", "South 2", 45500}, } mathCalc := map[string]string{ "=2^3": "8", "=1=1": "TRUE", "=1=2": "FALSE", "=1<2": "TRUE", "=3<2": "FALSE", "=1<\"-1\"": "TRUE", "=\"-1\"<1": "FALSE", "=\"-1\"<\"-2\"": "TRUE", "=2<=3": "TRUE", "=2<=1": "FALSE", "=1<=\"-1\"": "TRUE", "=\"-1\"<=1": "FALSE", "=\"-1\"<=\"-2\"": "TRUE", "=2>1": "TRUE", "=2>3": "FALSE", "=1>\"-1\"": "FALSE", "=\"-1\">-1": "TRUE", "=\"-1\">\"-2\"": "FALSE", "=2>=1": "TRUE", "=2>=3": "FALSE", "=1>=\"-1\"": "FALSE", "=\"-1\">=-1": "TRUE", "=\"-1\">=\"-2\"": "FALSE", "=1&2": "12", "=15%": "0.15", "=1+20%": "1.2", "={1}+2": "3", "=1+{2}": "3", "={1}+{2}": "3", `="A"="A"`: "TRUE", `="A"<>"A"`: "FALSE", // Engineering Functions // BESSELI "=BESSELI(4.5,1)": "15.3892227537359", "=BESSELI(32,1)": "5502845511211.25", "=BESSELI({32},1)": "5502845511211.25", "=BESSELI(32,{1})": "5502845511211.25", "=BESSELI({32},{1})": "5502845511211.25", // BESSELJ "=BESSELJ(1.9,2)": "0.329925727692387", "=BESSELJ({1.9},2)": "0.329925727692387", "=BESSELJ(1.9,{2})": "0.329925727692387", "=BESSELJ({1.9},{2})": "0.329925727692387", // BESSELK "=BESSELK(0.05,0)": "3.11423403428966", "=BESSELK(0.05,1)": "19.9096743272486", "=BESSELK(0.05,2)": "799.501207124235", "=BESSELK(3,2)": "0.0615104585619118", "=BESSELK({3},2)": "0.0615104585619118", "=BESSELK(3,{2})": "0.0615104585619118", "=BESSELK({3},{2})": "0.0615104585619118", // BESSELY "=BESSELY(0.05,0)": "-1.97931100684153", "=BESSELY(0.05,1)": "-12.789855163794", "=BESSELY(0.05,2)": "-509.61489554492", "=BESSELY(9,2)": "-0.229082087487741", "=BESSELY({9},2)": "-0.229082087487741", "=BESSELY(9,{2})": "-0.229082087487741", "=BESSELY({9},{2})": "-0.229082087487741", // BIN2DEC "=BIN2DEC(\"10\")": "2", "=BIN2DEC(\"11\")": "3", "=BIN2DEC(\"0000000010\")": "2", "=BIN2DEC(\"1111111110\")": "-2", "=BIN2DEC(\"110\")": "6", "=BIN2DEC({\"110\"})": "6", // BIN2HEX "=BIN2HEX(\"10\")": "2", "=BIN2HEX(\"0000000001\")": "1", "=BIN2HEX(\"10\",10)": "0000000002", "=BIN2HEX(\"1111111110\")": "FFFFFFFFFE", "=BIN2HEX(\"11101\")": "1D", "=BIN2HEX({\"11101\"})": "1D", // BIN2OCT "=BIN2OCT(\"101\")": "5", "=BIN2OCT(\"0000000001\")": "1", "=BIN2OCT(\"10\",10)": "0000000002", "=BIN2OCT(\"1111111110\")": "7777777776", "=BIN2OCT(\"1110\")": "16", "=BIN2OCT({\"1110\"})": "16", // BITAND "=BITAND(13,14)": "12", "=BITAND({13},14)": "12", "=BITAND(13,{14})": "12", "=BITAND({13},{14})": "12", // BITLSHIFT "=BITLSHIFT(5,2)": "20", "=BITLSHIFT({3},5)": "96", "=BITLSHIFT(3,5)": "96", "=BITLSHIFT(3,{5})": "96", "=BITLSHIFT({3},{5})": "96", // BITOR "=BITOR(9,12)": "13", "=BITOR({9},12)": "13", "=BITOR(9,{12})": "13", "=BITOR({9},{12})": "13", // BITRSHIFT "=BITRSHIFT(20,2)": "5", "=BITRSHIFT(52,4)": "3", "=BITRSHIFT({52},4)": "3", "=BITRSHIFT(52,{4})": "3", "=BITRSHIFT({52},{4})": "3", // BITXOR "=BITXOR(5,6)": "3", "=BITXOR(9,12)": "5", "=BITXOR({9},12)": "5", "=BITXOR(9,{12})": "5", "=BITXOR({9},{12})": "5", // COMPLEX "=COMPLEX(5,2)": "5+2i", "=COMPLEX(5,-9)": "5-9i", "=COMPLEX(-1,2,\"j\")": "-1+2j", "=COMPLEX(10,-5,\"i\")": "10-5i", "=COMPLEX(0,5)": "5i", "=COMPLEX(3,0)": "3", "=COMPLEX(0,-2)": "-2i", "=COMPLEX(0,0)": "0", "=COMPLEX(0,-1,\"j\")": "-j", // CONVERT "=CONVERT(20.2,\"m\",\"yd\")": "22.0909886264217", "=CONVERT(20.2,\"cm\",\"yd\")": "0.220909886264217", "=CONVERT(0.2,\"gal\",\"tsp\")": "153.6", "=CONVERT(5,\"gal\",\"l\")": "18.92705892", "=CONVERT(0.02,\"Gm\",\"m\")": "20000000", "=CONVERT(0,\"C\",\"F\")": "32", "=CONVERT(1,\"ly^2\",\"ly^2\")": "1", "=CONVERT(0.00194255938572296,\"sg\",\"ozm\")": "1", "=CONVERT(5,\"kg\",\"kg\")": "5", "=CONVERT(4.5359237E-01,\"kg\",\"lbm\")": "1", "=CONVERT(0.2,\"kg\",\"hg\")": "2", "=CONVERT(12.345000000000001,\"km\",\"m\")": "12345", "=CONVERT(12345,\"m\",\"km\")": "12.345", "=CONVERT(0.621371192237334,\"mi\",\"km\")": "1", "=CONVERT(1.23450000000000E+05,\"ang\",\"um\")": "12.345", "=CONVERT(1.23450000000000E+02,\"kang\",\"um\")": "12.345", "=CONVERT(1000,\"dal\",\"hl\")": "100", "=CONVERT(1,\"yd\",\"ft\")": "2.99999999999999", "=CONVERT(20,\"C\",\"F\")": "68", "=CONVERT(68,\"F\",\"C\")": "20", "=CONVERT(293.15,\"K\",\"F\")": "68", "=CONVERT(68,\"F\",\"K\")": "293.15", "=CONVERT(-273.15,\"C\",\"K\")": "0", "=CONVERT(-459.67,\"F\",\"K\")": "0", "=CONVERT(295.65,\"K\",\"C\")": "22.5", "=CONVERT(22.5,\"C\",\"K\")": "295.65", "=CONVERT(1667.85,\"C\",\"K\")": "1941", "=CONVERT(3034.13,\"F\",\"K\")": "1941", "=CONVERT(3493.8,\"Rank\",\"K\")": "1941", "=CONVERT(1334.28,\"Reau\",\"K\")": "1941", "=CONVERT(1941,\"K\",\"Rank\")": "3493.8", "=CONVERT(1941,\"K\",\"Reau\")": "1334.28", "=CONVERT(123.45,\"K\",\"kel\")": "123.45", "=CONVERT(123.45,\"C\",\"cel\")": "123.45", "=CONVERT(123.45,\"F\",\"fah\")": "123.45", "=CONVERT(16,\"bit\",\"byte\")": "2", "=CONVERT(1,\"kbyte\",\"byte\")": "1000", "=CONVERT(1,\"kibyte\",\"byte\")": "1024", // DEC2BIN "=DEC2BIN(2)": "10", "=DEC2BIN(3)": "11", "=DEC2BIN(2,10)": "0000000010", "=DEC2BIN(-2)": "1111111110", "=DEC2BIN(6)": "110", // DEC2HEX "=DEC2HEX(10)": "A", "=DEC2HEX(31)": "1F", "=DEC2HEX(16,10)": "0000000010", "=DEC2HEX(-16)": "FFFFFFFFF0", "=DEC2HEX(273)": "111", // DEC2OCT "=DEC2OCT(8)": "10", "=DEC2OCT(18)": "22", "=DEC2OCT(8,10)": "0000000010", "=DEC2OCT(-8)": "7777777770", "=DEC2OCT(237)": "355", // DELTA "=DELTA(5,4)": "0", "=DELTA(1.00001,1)": "0", "=DELTA(1.23,1.23)": "1", "=DELTA(1)": "0", "=DELTA(0)": "1", // ERF "=ERF(1.5)": "0.966105146475311", "=ERF(0,1.5)": "0.966105146475311", "=ERF(1,2)": "0.152621472069238", // ERF.PRECISE "=ERF.PRECISE(-1)": "-0.842700792949715", "=ERF.PRECISE(1.5)": "0.966105146475311", // ERFC "=ERFC(0)": "1", "=ERFC(0.5)": "0.479500122186953", "=ERFC(-1)": "1.84270079294971", // ERFC.PRECISE "=ERFC.PRECISE(0)": "1", "=ERFC.PRECISE(0.5)": "0.479500122186953", "=ERFC.PRECISE(-1)": "1.84270079294971", // GESTEP "=GESTEP(1.2,0.001)": "1", "=GESTEP(0.05,0.05)": "1", "=GESTEP(-0.00001,0)": "0", "=GESTEP(-0.00001)": "0", // HEX2BIN "=HEX2BIN(\"2\")": "10", "=HEX2BIN(\"0000000001\")": "1", "=HEX2BIN(\"2\",10)": "0000000010", "=HEX2BIN(\"F0\")": "11110000", "=HEX2BIN(\"1D\")": "11101", // HEX2DEC "=HEX2DEC(\"A\")": "10", "=HEX2DEC(\"1F\")": "31", "=HEX2DEC(\"0000000010\")": "16", "=HEX2DEC(\"FFFFFFFFF0\")": "-16", "=HEX2DEC(\"111\")": "273", "=HEX2DEC(\"\")": "0", // HEX2OCT "=HEX2OCT(\"A\")": "12", "=HEX2OCT(\"000000000F\")": "17", "=HEX2OCT(\"8\",10)": "0000000010", "=HEX2OCT(\"FFFFFFFFF8\")": "7777777770", "=HEX2OCT(\"1F3\")": "763", "=HEX2OCT({\"1F3\"})": "763", // IMABS "=IMABS(\"2j\")": "2", "=IMABS(\"-1+2i\")": "2.23606797749979", "=IMABS(COMPLEX(-1,2,\"j\"))": "2.23606797749979", // IMAGINARY "=IMAGINARY(\"5+2i\")": "2", "=IMAGINARY(\"2-i\")": "-1", "=IMAGINARY(6)": "0", "=IMAGINARY(\"3i\")": "3", "=IMAGINARY(\"4+i\")": "1", // IMARGUMENT "=IMARGUMENT(\"5+2i\")": "0.380506377112365", "=IMARGUMENT(\"2-i\")": "-0.463647609000806", "=IMARGUMENT(6)": "0", // IMCONJUGATE "=IMCONJUGATE(\"5+2i\")": "5-2i", "=IMCONJUGATE(\"2-i\")": "2+i", "=IMCONJUGATE(6)": "6", "=IMCONJUGATE(\"3i\")": "-3i", "=IMCONJUGATE(\"4+i\")": "4-i", // IMCOS "=IMCOS(0)": "1", "=IMCOS(0.5)": "0.877582561890373", "=IMCOS(\"3+0.5i\")": "-1.11634124452615-0.0735369737112366i", // IMCOSH "=IMCOSH(0.5)": "1.12762596520638", "=IMCOSH(\"3+0.5i\")": "8.83520460650099+4.80282508274303i", "=IMCOSH(\"2-i\")": "2.03272300701967-3.0518977991518i", "=IMCOSH(COMPLEX(1,-1))": "0.833730025131149-0.988897705762865i", // IMCOT "=IMCOT(0.5)": "1.83048772171245", "=IMCOT(\"3+0.5i\")": "-0.479345578747373-2.01609252150623i", "=IMCOT(\"2-i\")": "-0.171383612909185+0.821329797493852i", "=IMCOT(COMPLEX(1,-1))": "0.217621561854403+0.868014142895925i", // IMCSC "=IMCSC(\"j\")": "-0.850918128239322j", // IMCSCH "=IMCSCH(COMPLEX(1,-1))": "0.303931001628426+0.621518017170428i", // IMDIV "=IMDIV(\"5+2i\",\"1+i\")": "3.5-1.5i", "=IMDIV(\"2+2i\",\"2+i\")": "1.2+0.4i", "=IMDIV(COMPLEX(5,2),COMPLEX(0,1))": "2-5i", // IMEXP "=IMEXP(0)": "1", "=IMEXP(0.5)": "1.64872127070013", "=IMEXP(\"1-2i\")": "-1.13120438375681-2.47172667200482i", "=IMEXP(COMPLEX(1,-1))": "1.46869393991589-2.28735528717884i", // IMLN "=IMLN(0.5)": "-0.693147180559945", "=IMLN(\"3+0.5i\")": "1.11231177576217+0.165148677414627i", "=IMLN(\"2-i\")": "0.80471895621705-0.463647609000806i", "=IMLN(COMPLEX(1,-1))": "0.346573590279973-0.785398163397448i", // IMLOG10 "=IMLOG10(0.5)": "-0.301029995663981", "=IMLOG10(\"3+0.5i\")": "0.483070866369516+0.0717231592947926i", "=IMLOG10(\"2-i\")": "0.349485002168009-0.201359598136687i", "=IMLOG10(COMPLEX(1,-1))": "0.150514997831991-0.34109408846046i", // IMREAL "=IMREAL(\"5+2i\")": "5", "=IMREAL(\"2+2i\")": "2", "=IMREAL(6)": "6", "=IMREAL(\"3i\")": "0", "=IMREAL(COMPLEX(4,1))": "4", // IMSEC "=IMSEC(0.5)": "1.13949392732455", "=IMSEC(\"3+0.5i\")": "-0.89191317974033+0.0587531781817398i", "=IMSEC(\"2-i\")": "-0.41314934426694-0.687527438655479i", "=IMSEC(COMPLEX(1,-1))": "0.498337030555187-0.591083841721045i", // IMSECH "=IMSECH(0.5)": "0.886818883970074", "=IMSECH(\"3+0.5i\")": "0.0873665779621303-0.0474925494901607i", "=IMSECH(\"2-i\")": "0.151176298265577+0.226973675393722i", "=IMSECH(COMPLEX(1,-1))": "0.498337030555187+0.591083841721045i", // IMSIN "=IMSIN(0.5)": "0.479425538604203", "=IMSIN(\"3+0.5i\")": "0.15913058529844-0.515880442452527i", "=IMSIN(\"2-i\")": "1.40311925062204+0.489056259041294i", "=IMSIN(COMPLEX(1,-1))": "1.29845758141598-0.634963914784736i", // IMSINH "=IMSINH(-0)": "0", "=IMSINH(0.5)": "0.521095305493747", "=IMSINH(\"3+0.5i\")": "8.79151234349371+4.82669427481082i", "=IMSINH(\"2-i\")": "1.95960104142161-3.16577851321617i", "=IMSINH(COMPLEX(1,-1))": "0.634963914784736-1.29845758141598i", // IMSQRT "=IMSQRT(\"i\")": "0.707106781186548+0.707106781186548i", "=IMSQRT(\"2-i\")": "1.45534669022535-0.343560749722512i", "=IMSQRT(\"5+2i\")": "2.27872385417085+0.438842116902254i", "=IMSQRT(6)": "2.44948974278318", "=IMSQRT(\"-2-4i\")": "1.11178594050284-1.79890743994787i", // IMSUB "=IMSUB(\"5+i\",\"1+4i\")": "4-3i", "=IMSUB(\"9+2i\",6)": "3+2i", "=IMSUB(COMPLEX(5,2),COMPLEX(0,1))": "5+i", // IMSUM "=IMSUM(\"1-i\",\"5+10i\",2)": "8+9i", "=IMSUM(COMPLEX(5,2),COMPLEX(0,1))": "5+3i", // IMTAN "=IMTAN(-0)": "0", "=IMTAN(0.5)": "0.54630248984379", "=IMTAN(\"3+0.5i\")": "-0.111621050771583+0.469469993425885i", "=IMTAN(\"2-i\")": "-0.243458201185725-1.16673625724092i", "=IMTAN(COMPLEX(1,-1))": "0.271752585319512-1.08392332733869i", // OCT2BIN "=OCT2BIN(\"5\")": "101", "=OCT2BIN(\"0000000001\")": "1", "=OCT2BIN(\"2\",10)": "0000000010", "=OCT2BIN(\"7777777770\")": "1111111000", "=OCT2BIN(\"16\")": "1110", // OCT2DEC "=OCT2DEC(\"10\")": "8", "=OCT2DEC(\"22\")": "18", "=OCT2DEC(\"0000000010\")": "8", "=OCT2DEC(\"7777777770\")": "-8", "=OCT2DEC(\"355\")": "237", // OCT2HEX "=OCT2HEX(\"10\")": "8", "=OCT2HEX(\"0000000007\")": "7", "=OCT2HEX(\"10\",10)": "0000000008", "=OCT2HEX(\"7777777770\")": "FFFFFFFFF8", "=OCT2HEX(\"763\")": "1F3", // Math and Trigonometric Functions // ABS "=ABS(-1)": "1", "=ABS(-6.5)": "6.5", "=ABS(6.5)": "6.5", "=ABS(0)": "0", "=ABS(2-4.5)": "2.5", "=ABS(ABS(-1))": "1", // ACOS "=ACOS(-1)": "3.14159265358979", "=ACOS(0)": "1.5707963267949", "=ACOS(ABS(0))": "1.5707963267949", // ACOSH "=ACOSH(1)": "0", "=ACOSH(2.5)": "1.56679923697241", "=ACOSH(5)": "2.29243166956118", "=ACOSH(ACOSH(5))": "1.47138332153668", // _xlfn.ACOT "=_xlfn.ACOT(1)": "0.785398163397448", "=_xlfn.ACOT(-2)": "2.67794504458899", "=_xlfn.ACOT(0)": "1.5707963267949", "=_xlfn.ACOT(_xlfn.ACOT(0))": "0.566911504941009", // _xlfn.ACOTH "=_xlfn.ACOTH(-5)": "-0.202732554054082", "=_xlfn.ACOTH(1.1)": "1.52226121886171", "=_xlfn.ACOTH(2)": "0.549306144334055", "=_xlfn.ACOTH(ABS(-2))": "0.549306144334055", // _xlfn.AGGREGATE "=_xlfn.AGGREGATE(1,0,A1:A6)": "1.5", "=_xlfn.AGGREGATE(2,0,A1:A6)": "4", "=_xlfn.AGGREGATE(3,0,A1:A6)": "4", "=_xlfn.AGGREGATE(4,0,A1:A6)": "3", "=_xlfn.AGGREGATE(5,0,A1:A6)": "0", "=_xlfn.AGGREGATE(6,0,A1:A6)": "0", "=_xlfn.AGGREGATE(7,0,A1:A6)": "1.29099444873581", "=_xlfn.AGGREGATE(8,0,A1:A6)": "1.11803398874989", "=_xlfn.AGGREGATE(9,0,A1:A6)": "6", "=_xlfn.AGGREGATE(10,0,A1:A6)": "1.66666666666667", "=_xlfn.AGGREGATE(11,0,A1:A6)": "1.25", "=_xlfn.AGGREGATE(12,0,A1:A6)": "1.5", "=_xlfn.AGGREGATE(14,0,A1:A6,1)": "3", "=_xlfn.AGGREGATE(15,0,A1:A6,1)": "0", "=_xlfn.AGGREGATE(16,0,A1:A6,1)": "3", "=_xlfn.AGGREGATE(17,0,A1:A6,1)": "0.75", "=_xlfn.AGGREGATE(19,0,A1:A6,1)": "0.25", // ARABIC "=_xlfn.ARABIC(\"IV\")": "4", "=_xlfn.ARABIC(\"-IV\")": "-4", "=_xlfn.ARABIC(\"MCXX\")": "1120", "=_xlfn.ARABIC(\"\")": "0", "=_xlfn.ARABIC(\" ll lc \")": "-50", // ASIN "=ASIN(-1)": "-1.5707963267949", "=ASIN(0)": "0", "=ASIN(ASIN(0))": "0", // ASINH "=ASINH(0)": "0", "=ASINH(-0.5)": "-0.481211825059603", "=ASINH(2)": "1.44363547517881", "=ASINH(ASINH(0))": "0", // ATAN "=ATAN(-1)": "-0.785398163397448", "=ATAN(0)": "0", "=ATAN(1)": "0.785398163397448", "=ATAN(ATAN(0))": "0", // ATANH "=ATANH(-0.8)": "-1.09861228866811", "=ATANH(0)": "0", "=ATANH(0.5)": "0.549306144334055", "=ATANH(ATANH(0))": "0", // ATAN2 "=ATAN2(1,1)": "0.785398163397448", "=ATAN2(1,-1)": "-0.785398163397448", "=ATAN2(4,0)": "0", "=ATAN2(4,ATAN2(4,0))": "0", // BASE "=BASE(12,2)": "1100", "=BASE(12,2,8)": "00001100", "=BASE(100000,16)": "186A0", "=BASE(BASE(12,2),16)": "44C", // CEILING "=CEILING(22.25,0.1)": "22.3", "=CEILING(22.25,0.5)": "22.5", "=CEILING(22.25,1)": "23", "=CEILING(22.25,10)": "30", "=CEILING(22.25,20)": "40", "=CEILING(-22.25,-0.1)": "-22.3", "=CEILING(-22.25,-1)": "-23", "=CEILING(-22.25,-5)": "-25", "=CEILING(22.25)": "23", "=CEILING(CEILING(22.25,0.1),0.1)": "22.3", // _xlfn.CEILING.MATH "=_xlfn.CEILING.MATH(15.25,1)": "16", "=_xlfn.CEILING.MATH(15.25,0.1)": "15.3", "=_xlfn.CEILING.MATH(15.25,5)": "20", "=_xlfn.CEILING.MATH(-15.25,1)": "-15", "=_xlfn.CEILING.MATH(-15.25,1,1)": "-15", // should be 16 "=_xlfn.CEILING.MATH(-15.25,10)": "-10", "=_xlfn.CEILING.MATH(-15.25)": "-15", "=_xlfn.CEILING.MATH(-15.25,-5,-1)": "-10", "=_xlfn.CEILING.MATH(_xlfn.CEILING.MATH(15.25,1),1)": "16", // _xlfn.CEILING.PRECISE "=_xlfn.CEILING.PRECISE(22.25,0.1)": "22.3", "=_xlfn.CEILING.PRECISE(22.25,0.5)": "22.5", "=_xlfn.CEILING.PRECISE(22.25,1)": "23", "=_xlfn.CEILING.PRECISE(22.25)": "23", "=_xlfn.CEILING.PRECISE(22.25,10)": "30", "=_xlfn.CEILING.PRECISE(22.25,0)": "0", "=_xlfn.CEILING.PRECISE(-22.25,1)": "-22", "=_xlfn.CEILING.PRECISE(-22.25,-1)": "-22", "=_xlfn.CEILING.PRECISE(-22.25,5)": "-20", "=_xlfn.CEILING.PRECISE(_xlfn.CEILING.PRECISE(22.25,0.1),5)": "25", // COMBIN "=COMBIN(6,1)": "6", "=COMBIN(6,2)": "15", "=COMBIN(6,3)": "20", "=COMBIN(6,4)": "15", "=COMBIN(6,5)": "6", "=COMBIN(6,6)": "1", "=COMBIN(0,0)": "1", "=COMBIN(6,COMBIN(0,0))": "6", // _xlfn.COMBINA "=_xlfn.COMBINA(6,1)": "6", "=_xlfn.COMBINA(6,2)": "21", "=_xlfn.COMBINA(6,3)": "56", "=_xlfn.COMBINA(6,4)": "126", "=_xlfn.COMBINA(6,5)": "252", "=_xlfn.COMBINA(6,6)": "462", "=_xlfn.COMBINA(0,0)": "0", "=_xlfn.COMBINA(0,_xlfn.COMBINA(0,0))": "0", // COS "=COS(0.785398163)": "0.707106781467586", "=COS(0)": "1", "=-COS(0)": "-1", "=COS(COS(0))": "0.54030230586814", // COSH "=COSH(0)": "1", "=COSH(0.5)": "1.12762596520638", "=COSH(-2)": "3.76219569108363", "=COSH(COSH(0))": "1.54308063481524", // _xlfn.COT "=_xlfn.COT(0.785398163397448)": "1", "=_xlfn.COT(_xlfn.COT(0.45))": "-0.545473116787229", // _xlfn.COTH "=_xlfn.COTH(-3.14159265358979)": "-1.00374187319732", "=_xlfn.COTH(_xlfn.COTH(1))": "1.15601401811395", // _xlfn.CSC "=_xlfn.CSC(-6)": "3.57889954725441", "=_xlfn.CSC(1.5707963267949)": "1", "=_xlfn.CSC(_xlfn.CSC(1))": "1.07785184031088", // _xlfn.CSCH "=_xlfn.CSCH(-3.14159265358979)": "-0.0865895375300472", "=_xlfn.CSCH(_xlfn.CSCH(1))": "1.04451010395518", // _xlfn.DECIMAL `=_xlfn.DECIMAL("1100",2)`: "12", `=_xlfn.DECIMAL("186A0",16)`: "100000", `=_xlfn.DECIMAL("31L0",32)`: "100000", `=_xlfn.DECIMAL("70122",8)`: "28754", `=_xlfn.DECIMAL("0x70122",8)`: "28754", // DEGREES "=DEGREES(1)": "57.2957795130823", "=DEGREES(2.5)": "143.239448782706", "=DEGREES(DEGREES(1))": "3282.80635001174", // EVEN "=EVEN(23)": "24", "=EVEN(2.22)": "4", "=EVEN(0)": "0", "=EVEN(-0.3)": "-2", "=EVEN(-11)": "-12", "=EVEN(-4)": "-4", "=EVEN((0))": "0", // EXP "=EXP(100)": "2.68811714181614E+43", "=EXP(0.1)": "1.10517091807565", "=EXP(0)": "1", "=EXP(-5)": "0.00673794699908547", "=EXP(EXP(0))": "2.71828182845905", // FACT "=FACT(3)": "6", "=FACT(6)": "720", "=FACT(10)": "3628800", "=FACT(FACT(3))": "720", // FACTDOUBLE "=FACTDOUBLE(5)": "15", "=FACTDOUBLE(8)": "384", "=FACTDOUBLE(13)": "135135", "=FACTDOUBLE(FACTDOUBLE(1))": "1", // FLOOR "=FLOOR(26.75,0.1)": "26.7", "=FLOOR(26.75,0.5)": "26.5", "=FLOOR(26.75,1)": "26", "=FLOOR(26.75,10)": "20", "=FLOOR(26.75,20)": "20", "=FLOOR(-26.75,-0.1)": "-26.7", "=FLOOR(-26.75,-1)": "-26", "=FLOOR(-26.75,-5)": "-25", "=FLOOR(-2.05,2)": "-4", "=FLOOR(FLOOR(26.75,1),1)": "26", // _xlfn.FLOOR.MATH "=_xlfn.FLOOR.MATH(58.55)": "58", "=_xlfn.FLOOR.MATH(58.55,0.1)": "58.5", "=_xlfn.FLOOR.MATH(58.55,5)": "55", "=_xlfn.FLOOR.MATH(58.55,1,1)": "58", "=_xlfn.FLOOR.MATH(-58.55,1)": "-59", "=_xlfn.FLOOR.MATH(-58.55,1,-1)": "-58", "=_xlfn.FLOOR.MATH(-58.55,1,1)": "-59", // should be -58 "=_xlfn.FLOOR.MATH(-58.55,10)": "-60", "=_xlfn.FLOOR.MATH(_xlfn.FLOOR.MATH(1),10)": "0", // _xlfn.FLOOR.PRECISE "=_xlfn.FLOOR.PRECISE(26.75,0.1)": "26.7", "=_xlfn.FLOOR.PRECISE(26.75,0.5)": "26.5", "=_xlfn.FLOOR.PRECISE(26.75,1)": "26", "=_xlfn.FLOOR.PRECISE(26.75)": "26", "=_xlfn.FLOOR.PRECISE(26.75,10)": "20", "=_xlfn.FLOOR.PRECISE(26.75,0)": "0", "=_xlfn.FLOOR.PRECISE(-26.75,1)": "-27", "=_xlfn.FLOOR.PRECISE(-26.75,-1)": "-27", "=_xlfn.FLOOR.PRECISE(-26.75,-5)": "-30", "=_xlfn.FLOOR.PRECISE(_xlfn.FLOOR.PRECISE(26.75),-5)": "25", // GCD "=GCD(0)": "0", "=GCD(1,0)": "1", "=GCD(\"0\",1)": "1", "=GCD(1,5)": "1", "=GCD(15,10,25)": "5", "=GCD(0,8,12)": "4", "=GCD(7,2)": "1", "=GCD(1,GCD(1))": "1", // INT "=INT(100.9)": "100", "=INT(5.22)": "5", "=INT(5.99)": "5", "=INT(-6.1)": "-7", "=INT(-100.9)": "-101", "=INT(INT(0))": "0", // ISO.CEILING "=ISO.CEILING(22.25)": "23", "=ISO.CEILING(22.25,1)": "23", "=ISO.CEILING(22.25,0.1)": "22.3", "=ISO.CEILING(22.25,10)": "30", "=ISO.CEILING(-22.25,1)": "-22", "=ISO.CEILING(-22.25,0.1)": "-22.2", "=ISO.CEILING(-22.25,5)": "-20", "=ISO.CEILING(-22.25,0)": "0", "=ISO.CEILING(1,ISO.CEILING(1,0))": "0", // LCM "=LCM(1,5)": "5", "=LCM(15,10,25)": "150", "=LCM(1,8,12)": "24", "=LCM(7,2)": "14", "=LCM(7)": "7", `=LCM("",1)`: "1", `=LCM(0,0)`: "0", `=LCM(0,LCM(0,0))`: "0", // LN "=LN(1)": "0", "=LN(100)": "4.60517018598809", "=LN(0.5)": "-0.693147180559945", "=LN(LN(100))": "1.5271796258079", // LOG "=LOG(64,2)": "6", "=LOG(100)": "2", "=LOG(4,0.5)": "-2", "=LOG(500)": "2.69897000433602", "=LOG(LOG(100))": "0.301029995663981", // LOG10 "=LOG10(100)": "2", "=LOG10(1000)": "3", "=LOG10(0.001)": "-3", "=LOG10(25)": "1.39794000867204", "=LOG10(LOG10(100))": "0.301029995663981", // IMLOG2 "=IMLOG2(\"5+2i\")": "2.42899049756379+0.548954663286635i", "=IMLOG2(\"2-i\")": "1.16096404744368-0.668902106225488i", "=IMLOG2(6)": "2.58496250072116", "=IMLOG2(\"3i\")": "1.58496250072116+2.2661800709136i", "=IMLOG2(\"4+i\")": "2.04373142062517+0.353429502416735i", // IMPOWER "=IMPOWER(\"2-i\",2)": "3-4i", "=IMPOWER(\"2-i\",3)": "2-11i", "=IMPOWER(9,0.5)": "3", "=IMPOWER(\"2+4i\",-2)": "-0.03-0.04i", // IMPRODUCT "=IMPRODUCT(3,6)": "18", `=IMPRODUCT("",3,SUM(6))`: "18", "=IMPRODUCT(\"1-i\",\"5+10i\",2)": "30+10i", "=IMPRODUCT(COMPLEX(5,2),COMPLEX(0,1))": "-2+5i", "=IMPRODUCT(A1:C1)": "4", // MINVERSE "=MINVERSE(A1:B2)": "-0", // MMULT "=MMULT(A4:A4,A4:A4)": "0", // MOD "=MOD(6,4)": "2", "=MOD(6,3)": "0", "=MOD(6,2.5)": "1", "=MOD(6,1.333)": "0.668", "=MOD(-10.23,1)": "0.77", "=MOD(MOD(1,1),1)": "0", // MROUND "=MROUND(333.7,0.5)": "333.5", "=MROUND(333.8,1)": "334", "=MROUND(333.3,2)": "334", "=MROUND(555.3,400)": "400", "=MROUND(555,1000)": "1000", "=MROUND(-555.7,-1)": "-556", "=MROUND(-555.4,-1)": "-555", "=MROUND(-1555,-1000)": "-2000", "=MROUND(MROUND(1,1),1)": "1", // MULTINOMIAL "=MULTINOMIAL(3,1,2,5)": "27720", `=MULTINOMIAL("",3,1,2,5)`: "27720", "=MULTINOMIAL(MULTINOMIAL(1))": "1", // _xlfn.MUNIT "=_xlfn.MUNIT(4)": "1", // ODD "=ODD(22)": "23", "=ODD(1.22)": "3", "=ODD(1.22+4)": "7", "=ODD(0)": "1", "=ODD(-1.3)": "-3", "=ODD(-10)": "-11", "=ODD(-3)": "-3", "=ODD(ODD(1))": "1", // PI "=PI()": "3.14159265358979", // POWER "=POWER(4,2)": "16", "=POWER(4,POWER(1,1))": "4", // PRODUCT "=PRODUCT(3,6)": "18", "=PRODUCT(\"3\",\"6\")": "18", "=PRODUCT(PRODUCT(1),3,6)": "18", "=PRODUCT(C1:C2)": "1", // QUOTIENT "=QUOTIENT(5,2)": "2", "=QUOTIENT(4.5,3.1)": "1", "=QUOTIENT(-10,3)": "-3", "=QUOTIENT(QUOTIENT(1,2),3)": "0", // RADIANS "=RADIANS(50)": "0.872664625997165", "=RADIANS(-180)": "-3.14159265358979", "=RADIANS(180)": "3.14159265358979", "=RADIANS(360)": "6.28318530717959", "=RADIANS(RADIANS(360))": "0.109662271123215", // ROMAN "=ROMAN(499,0)": "CDXCIX", "=ROMAN(1999,0)": "MCMXCIX", "=ROMAN(1999,1)": "MLMVLIV", "=ROMAN(1999,2)": "MXMIX", "=ROMAN(1999,3)": "MVMIV", "=ROMAN(1999,4)": "MIM", "=ROMAN(1999,-1)": "MCMXCIX", "=ROMAN(1999,5)": "MIM", "=ROMAN(1999,ODD(1))": "MLMVLIV", // ROUND "=ROUND(100.319,1)": "100.3", "=ROUND(5.28,1)": "5.3", "=ROUND(5.9999,3)": "6", "=ROUND(99.5,0)": "100", "=ROUND(-6.3,0)": "-6", "=ROUND(-100.5,0)": "-101", "=ROUND(-22.45,1)": "-22.5", "=ROUND(999,-1)": "1000", "=ROUND(991,-1)": "990", "=ROUND(ROUND(100,1),-1)": "100", // ROUNDDOWN "=ROUNDDOWN(99.999,1)": "99.9", "=ROUNDDOWN(99.999,2)": "99.99", "=ROUNDDOWN(99.999,0)": "99", "=ROUNDDOWN(99.999,-1)": "90", "=ROUNDDOWN(-99.999,2)": "-99.99", "=ROUNDDOWN(-99.999,-1)": "-90", "=ROUNDDOWN(ROUNDDOWN(100,1),-1)": "100", // ROUNDUP` "=ROUNDUP(11.111,1)": "11.2", "=ROUNDUP(11.111,2)": "11.12", "=ROUNDUP(11.111,0)": "12", "=ROUNDUP(11.111,-1)": "20", "=ROUNDUP(-11.111,2)": "-11.12", "=ROUNDUP(-11.111,-1)": "-20", "=ROUNDUP(ROUNDUP(100,1),-1)": "100", // SEC "=_xlfn.SEC(-3.14159265358979)": "-1", "=_xlfn.SEC(0)": "1", "=_xlfn.SEC(_xlfn.SEC(0))": "0.54030230586814", // SECH "=_xlfn.SECH(-3.14159265358979)": "0.0862667383340547", "=_xlfn.SECH(0)": "1", "=_xlfn.SECH(_xlfn.SECH(0))": "0.648054273663885", // SERIESSUM "=SERIESSUM(1,2,3,A1:A4)": "6", "=SERIESSUM(1,2,3,A1:B5)": "15", // SIGN "=SIGN(9.5)": "1", "=SIGN(-9.5)": "-1", "=SIGN(0)": "0", "=SIGN(0.00000001)": "1", "=SIGN(6-7)": "-1", "=SIGN(SIGN(-1))": "-1", // SIN "=SIN(0.785398163)": "0.707106780905509", "=SIN(SIN(1))": "0.745624141665558", // SINH "=SINH(0)": "0", "=SINH(0.5)": "0.521095305493747", "=SINH(-2)": "-3.62686040784702", "=SINH(SINH(0))": "0", // SQRT "=SQRT(4)": "2", "=SQRT(SQRT(16))": "2", // SQRTPI "=SQRTPI(5)": "3.96332729760601", "=SQRTPI(0.2)": "0.792665459521202", "=SQRTPI(100)": "17.7245385090552", "=SQRTPI(0)": "0", "=SQRTPI(SQRTPI(0))": "0", // STDEV "=STDEV(F2:F9)": "10724.9782875238", "=STDEV(MUNIT(2))": "0.577350269189626", "=STDEV(0,INT(0))": "0", "=STDEV(INT(1),INT(1))": "0", // STDEV.S "=STDEV.S(F2:F9)": "10724.9782875238", // STDEVA "=STDEVA(F2:F9)": "10724.9782875238", "=STDEVA(MUNIT(2))": "0.577350269189626", "=STDEVA(0,INT(0))": "0", // POISSON.DIST "=POISSON.DIST(20,25,FALSE)": "0.0519174686084913", "=POISSON.DIST(35,40,TRUE)": "0.242414197690103", // POISSON "=POISSON(20,25,FALSE)": "0.0519174686084913", "=POISSON(35,40,TRUE)": "0.242414197690103", // SUBTOTAL "=SUBTOTAL(1,A1:A6)": "1.5", "=SUBTOTAL(2,A1:A6)": "4", "=SUBTOTAL(3,A1:A6)": "4", "=SUBTOTAL(4,A1:A6)": "3", "=SUBTOTAL(5,A1:A6)": "0", "=SUBTOTAL(6,A1:A6)": "0", "=SUBTOTAL(7,A1:A6)": "1.29099444873581", "=SUBTOTAL(8,A1:A6)": "1.11803398874989", "=SUBTOTAL(9,A1:A6)": "6", "=SUBTOTAL(10,A1:A6)": "1.66666666666667", "=SUBTOTAL(11,A1:A6)": "1.25", "=SUBTOTAL(101,A1:A6)": "1.5", "=SUBTOTAL(102,A1:A6)": "4", "=SUBTOTAL(103,A1:A6)": "4", "=SUBTOTAL(104,A1:A6)": "3", "=SUBTOTAL(105,A1:A6)": "0", "=SUBTOTAL(106,A1:A6)": "0", "=SUBTOTAL(107,A1:A6)": "1.29099444873581", "=SUBTOTAL(108,A1:A6)": "1.11803398874989", "=SUBTOTAL(109,A1:A6)": "6", "=SUBTOTAL(109,A1:A6,A1:A6)": "12", "=SUBTOTAL(110,A1:A6)": "1.66666666666667", "=SUBTOTAL(111,A1:A6)": "1.25", "=SUBTOTAL(111,A1:A6,A1:A6)": "1.25", // SUM "=SUM(1,2)": "3", "=SUM(\"1\",\"2\")": "3", "=SUM(\"\",1,2)": "3", "=SUM(1,2+3)": "6", "=SUM(SUM(1,2),2)": "5", "=(-2-SUM(-4+7))*5": "-25", "SUM(1,2,3,4,5,6,7)": "28", "=SUM(1,2)+SUM(1,2)": "6", "=1+SUM(SUM(1,2*3),4)": "12", "=1+SUM(SUM(1,-2*3),4)": "0", "=(-2-SUM(-4*(7+7)))*5": "270", "=SUM(SUM(1+2/1)*2-3/2,2)": "6.5", "=((3+5*2)+3)/5+(-6)/4*2+3": "3.2", "=1+SUM(SUM(1,2*3),4)*-4/2+5+(4+2)*3": "2", "=1+SUM(SUM(1,2*3),4)*4/3+5+(4+2)*3": "38.6666666666667", "=SUM(1+ROW())": "2", "=SUM((SUM(2))+1)": "3", "=SUM({1,2,3,4,\"\"})": "10", // SUMIF `=SUMIF(F1:F5, "")`: "0", `=SUMIF(A1:A5, "3")`: "3", `=SUMIF(F1:F5, "=36693")`: "36693", `=SUMIF(F1:F5, "<100")`: "0", `=SUMIF(F1:F5, "<=36693")`: "93233", `=SUMIF(F1:F5, ">100")`: "146554", `=SUMIF(F1:F5, ">=100")`: "146554", `=SUMIF(F1:F5, ">=text")`: "0", `=SUMIF(F1:F5, "*Jan",F2:F5)`: "0", `=SUMIF(D3:D7,"Jan",F2:F5)`: "112114", `=SUMIF(D2:D9,"Feb",F2:F9)`: "157559", `=SUMIF(E2:E9,"North 1",F2:F9)`: "66582", `=SUMIF(E2:E9,"North*",F2:F9)`: "138772", "=SUMIF(D1:D3,\"Month\",D1:D3)": "0", // SUMPRODUCT "=SUMPRODUCT(A1,B1)": "4", "=SUMPRODUCT(A1:A2,B1:B2)": "14", "=SUMPRODUCT(A1:A3,B1:B3)": "14", "=SUMPRODUCT(A1:B3)": "15", "=SUMPRODUCT(A1:A3,B1:B3,B2:B4)": "20", // SUMSQ "=SUMSQ(A1:A4)": "14", "=SUMSQ(A1,B1,A2,B2,6)": "82", "=SUMSQ(\"\",A1,B1,A2,B2,6)": "82", "=SUMSQ(1,SUMSQ(1))": "2", "=SUMSQ(\"1\",SUMSQ(1))": "2", "=SUMSQ(MUNIT(3))": "3", // SUMX2MY2 "=SUMX2MY2(A1:A4,B1:B4)": "-36", // SUMX2PY2 "=SUMX2PY2(A1:A4,B1:B4)": "46", // SUMXMY2 "=SUMXMY2(A1:A4,B1:B4)": "18", // TAN "=TAN(1.047197551)": "1.73205080678249", "=TAN(0)": "0", "=TAN(TAN(0))": "0", // TANH "=TANH(0)": "0", "=TANH(0.5)": "0.46211715726001", "=TANH(-2)": "-0.964027580075817", "=TANH(TANH(0))": "0", // TRUNC "=TRUNC(99.999,1)": "99.9", "=TRUNC(99.999,2)": "99.99", "=TRUNC(99.999)": "99", "=TRUNC(99.999,-1)": "90", "=TRUNC(-99.999,2)": "-99.99", "=TRUNC(-99.999,-1)": "-90", "=TRUNC(TRUNC(1),-1)": "0", // Statistical Functions // AVEDEV "=AVEDEV(1,2)": "0.5", "=AVERAGE(A1:A4,B1:B4)": "2.5", // AVERAGE "=AVERAGE(INT(1))": "1", "=AVERAGE(A1)": "1", "=AVERAGE(A1:A2)": "1.5", "=AVERAGE(D2:F9)": "38014.125", // AVERAGEA "=AVERAGEA(INT(1))": "1", "=AVERAGEA(A1)": "1", "=AVERAGEA(\"1\")": "1", "=AVERAGEA(A1:A2)": "1.5", "=AVERAGEA(D2:F9)": "12671.375", // BETA.DIST "=BETA.DIST(0.4,4,5,TRUE,0,1)": "0.4059136", "=BETA.DIST(0.6,4,5,FALSE,0,1)": "1.548288", // BETADIST "=BETADIST(0.4,4,5)": "0.4059136", "=BETADIST(0.4,4,5,0,1)": "0.4059136", "=BETADIST(0.4,4,5,0.4,1)": "0", "=BETADIST(1,2,2,1,3)": "0", "=BETADIST(0.4,4,5,0.2,0.4)": "1", "=BETADIST(0.4,4,1)": "0.0256", "=BETADIST(0.4,1,5)": "0.92224", "=BETADIST(3,4,6,2,4)": "0.74609375", "=BETADIST(0.4,2,100)": "1", "=BETADIST(0.75,3,4)": "0.96240234375", "=BETADIST(0.2,0.7,4)": "0.71794309318323", "=BETADIST(0.01,3,4)": "1.955359E-05", "=BETADIST(0.75,130,140)": "1", // BETAINV "=BETAINV(0.2,4,5,0,1)": "0.303225844664082", // BETA.INV "=BETA.INV(0.2,4,5,0,1)": "0.303225844664082", // BINOMDIST "=BINOMDIST(10,100,0.5,FALSE)": "1.36554263874631E-17", "=BINOMDIST(50,100,0.5,FALSE)": "0.0795892373871787", "=BINOMDIST(65,100,0.5,FALSE)": "0.000863855665741652", "=BINOMDIST(10,100,0.5,TRUE)": "1.53164508771899E-17", "=BINOMDIST(50,100,0.5,TRUE)": "0.539794618693589", "=BINOMDIST(65,100,0.5,TRUE)": "0.999105034804256", // BINOM.DIST "=BINOM.DIST(10,100,0.5,FALSE)": "1.36554263874631E-17", "=BINOM.DIST(50,100,0.5,FALSE)": "0.0795892373871787", "=BINOM.DIST(65,100,0.5,FALSE)": "0.000863855665741652", "=BINOM.DIST(10,100,0.5,TRUE)": "1.53164508771899E-17", "=BINOM.DIST(50,100,0.5,TRUE)": "0.539794618693589", "=BINOM.DIST(65,100,0.5,TRUE)": "0.999105034804256", // BINOM.DIST.RANGE "=BINOM.DIST.RANGE(100,0.5,0,40)": "0.0284439668204904", "=BINOM.DIST.RANGE(100,0.5,45,55)": "0.728746975926165", "=BINOM.DIST.RANGE(100,0.5,50,100)": "0.539794618693589", "=BINOM.DIST.RANGE(100,0.5,50)": "0.0795892373871787", // BINOM.INV "=BINOM.INV(0,0.5,0.75)": "0", "=BINOM.INV(0.1,0.1,0.75)": "0", "=BINOM.INV(0.6,0.4,0.75)": "0", "=BINOM.INV(2,0.4,0.75)": "1", "=BINOM.INV(100,0.5,20%)": "46", "=BINOM.INV(100,0.5,50%)": "50", "=BINOM.INV(100,0.5,90%)": "56", // CHIDIST "=CHIDIST(0.5,3)": "0.918891411654676", "=CHIDIST(8,3)": "0.0460117056892314", "=CHIDIST(40,4)": "4.32842260712097E-08", "=CHIDIST(42,4)": "1.66816329414062E-08", // CHIINV "=CHIINV(0.5,1)": "0.454936423119572", "=CHIINV(0.75,1)": "0.101531044267622", "=CHIINV(0.1,2)": "4.60517018598809", "=CHIINV(0.8,2)": "0.446287102628419", // CHISQ.DIST "=CHISQ.DIST(0,2,TRUE)": "0", "=CHISQ.DIST(4,1,TRUE)": "0.954499736103642", "=CHISQ.DIST(1180,1180,FALSE)": "0.00821093706387967", "=CHISQ.DIST(2,1,FALSE)": "0.103776874355149", "=CHISQ.DIST(3,2,FALSE)": "0.111565080074215", "=CHISQ.DIST(2,3,FALSE)": "0.207553748710297", "=CHISQ.DIST(1425,1,FALSE)": "3.88315098887099E-312", "=CHISQ.DIST(3,2,TRUE)": "0.77686983985157", // CHISQ.DIST.RT "=CHISQ.DIST.RT(0.5,3)": "0.918891411654676", "=CHISQ.DIST.RT(8,3)": "0.0460117056892314", "=CHISQ.DIST.RT(40,4)": "4.32842260712097E-08", "=CHISQ.DIST.RT(42,4)": "1.66816329414062E-08", // CHISQ.INV "=CHISQ.INV(0,2)": "0", "=CHISQ.INV(0.75,1)": "1.32330369693147", "=CHISQ.INV(0.1,2)": "0.210721031315653", "=CHISQ.INV(0.8,2)": "3.2188758248682", "=CHISQ.INV(0.25,3)": "1.21253290304567", // CHISQ.INV.RT "=CHISQ.INV.RT(0.75,1)": "0.101531044267622", "=CHISQ.INV.RT(0.1,2)": "4.60517018598809", "=CHISQ.INV.RT(0.8,2)": "0.446287102628419", // CONFIDENCE "=CONFIDENCE(0.05,0.07,100)": "0.0137197479028414", // CONFIDENCE.NORM "=CONFIDENCE.NORM(0.05,0.07,100)": "0.0137197479028414", // CONFIDENCE.T "=CONFIDENCE.T(0.05,0.07,100)": "0.0138895186611049", // CORREL "=CORREL(A1:A5,B1:B5)": "1", // COUNT "=COUNT()": "0", "=COUNT(E1:F2,\"text\",1,INT(2),\"0\")": "4", // COUNTA "=COUNTA()": "0", "=COUNTA(A1:A5,B2:B5,\"text\",1,INT(2))": "8", "=COUNTA(COUNTA(1),MUNIT(1))": "2", "=COUNTA(D1:D2)": "2", // COUNTBLANK "=COUNTBLANK(MUNIT(1))": "0", "=COUNTBLANK(1)": "0", "=COUNTBLANK(B1:C1)": "1", "=COUNTBLANK(C1)": "1", // COUNTIF "=COUNTIF(D1:D9,\"Jan\")": "4", "=COUNTIF(D1:D9,\"<>Jan\")": "5", "=COUNTIF(A1:F9,\">=50000\")": "2", "=COUNTIF(A1:F9,TRUE)": "0", // COUNTIFS "=COUNTIFS(A1:A9,2,D1:D9,\"Jan\")": "1", "=COUNTIFS(F1:F9,\">20000\",D1:D9,\"Jan\")": "4", "=COUNTIFS(F1:F9,\">60000\",D1:D9,\"Jan\")": "0", // CRITBINOM "=CRITBINOM(0,0.5,0.75)": "0", "=CRITBINOM(0.1,0.1,0.75)": "0", "=CRITBINOM(0.6,0.4,0.75)": "0", "=CRITBINOM(2,0.4,0.75)": "1", "=CRITBINOM(100,0.5,20%)": "46", "=CRITBINOM(100,0.5,50%)": "50", "=CRITBINOM(100,0.5,90%)": "56", // DEVSQ "=DEVSQ(1,3,5,2,9,7)": "47.5", "=DEVSQ(A1:D2)": "10", // FISHER "=FISHER(-0.9)": "-1.47221948958322", "=FISHER(-0.25)": "-0.255412811882995", "=FISHER(0.8)": "1.09861228866811", "=FISHER(\"0.8\")": "1.09861228866811", "=FISHER(INT(0))": "0", // FISHERINV "=FISHERINV(-0.2)": "-0.197375320224904", "=FISHERINV(INT(0))": "0", "=FISHERINV(\"0\")": "0", "=FISHERINV(2.8)": "0.992631520201128", // GAMMA "=GAMMA(0.1)": "9.51350769866873", "=GAMMA(INT(1))": "1", "=GAMMA(1.5)": "0.886226925452758", "=GAMMA(5.5)": "52.3427777845535", "=GAMMA(\"5.5\")": "52.3427777845535", // GAMMA.DIST "=GAMMA.DIST(6,3,2,FALSE)": "0.112020903827694", "=GAMMA.DIST(6,3,2,TRUE)": "0.576809918873156", // GAMMADIST "=GAMMADIST(6,3,2,FALSE)": "0.112020903827694", "=GAMMADIST(6,3,2,TRUE)": "0.576809918873156", // GAMMA.INV "=GAMMA.INV(0.5,3,2)": "5.34812062744712", "=GAMMA.INV(0.5,0.5,1)": "0.227468211559786", // GAMMAINV "=GAMMAINV(0.5,3,2)": "5.34812062744712", "=GAMMAINV(0.5,0.5,1)": "0.227468211559786", // GAMMALN "=GAMMALN(4.5)": "2.45373657084244", "=GAMMALN(INT(1))": "0", // GAMMALN.PRECISE "=GAMMALN.PRECISE(0.4)": "0.796677817701784", "=GAMMALN.PRECISE(4.5)": "2.45373657084244", // GAUSS "=GAUSS(-5)": "-0.499999713348428", "=GAUSS(0)": "0", "=GAUSS(\"0\")": "0", "=GAUSS(0.1)": "0.039827837277029", "=GAUSS(2.5)": "0.493790334674224", // GEOMEAN "=GEOMEAN(2.5,3,0.5,1,3)": "1.6226711115996", // HARMEAN "=HARMEAN(2.5,3,0.5,1,3)": "1.22950819672131", "=HARMEAN(\"2.5\",3,0.5,1,INT(3),\"\")": "1.22950819672131", // HYPGEOM.DIST "=HYPGEOM.DIST(0,3,3,9,TRUE)": "0.238095238095238", "=HYPGEOM.DIST(1,3,3,9,TRUE)": "0.773809523809524", "=HYPGEOM.DIST(2,3,3,9,TRUE)": "0.988095238095238", "=HYPGEOM.DIST(3,3,3,9,TRUE)": "1", "=HYPGEOM.DIST(1,4,4,12,FALSE)": "0.452525252525253", "=HYPGEOM.DIST(2,4,4,12,FALSE)": "0.339393939393939", "=HYPGEOM.DIST(3,4,4,12,FALSE)": "0.0646464646464646", "=HYPGEOM.DIST(4,4,4,12,FALSE)": "0.00202020202020202", // HYPGEOMDIST "=HYPGEOMDIST(1,4,4,12)": "0.452525252525253", "=HYPGEOMDIST(2,4,4,12)": "0.339393939393939", "=HYPGEOMDIST(3,4,4,12)": "0.0646464646464646", "=HYPGEOMDIST(4,4,4,12)": "0.00202020202020202", // KURT "=KURT(F1:F9)": "-1.03350350255137", "=KURT(F1,F2:F9)": "-1.03350350255137", "=KURT(INT(1),MUNIT(2))": "-3.33333333333334", // EXPON.DIST "=EXPON.DIST(0.5,1,TRUE)": "0.393469340287367", "=EXPON.DIST(0.5,1,FALSE)": "0.606530659712633", "=EXPON.DIST(2,1,TRUE)": "0.864664716763387", // EXPONDIST "=EXPONDIST(0.5,1,TRUE)": "0.393469340287367", "=EXPONDIST(0.5,1,FALSE)": "0.606530659712633", "=EXPONDIST(2,1,TRUE)": "0.864664716763387", // FDIST "=FDIST(5,1,2)": "0.154845745271483", // F.DIST "=F.DIST(1,2,5,TRUE)": "0.568798849628308", "=F.DIST(1,2,5,FALSE)": "0.308000821694066", // F.DIST.RT "=F.DIST.RT(5,1,2)": "0.154845745271483", // F.INV "=F.INV(0.9,2,5)": "3.77971607877395", // FINV "=FINV(0.2,1,2)": "3.55555555555555", "=FINV(0.6,1,2)": "0.380952380952381", "=FINV(0.6,2,2)": "0.666666666666667", "=FINV(0.6,4,4)": "0.763454070045235", "=FINV(0.5,4,8)": "0.914645355977072", "=FINV(0.1,79,86)": "1.32646097270444", "=FINV(1,40,5)": "0", // F.INV.RT "=F.INV.RT(0.2,1,2)": "3.55555555555555", "=F.INV.RT(0.6,1,2)": "0.380952380952381", "=F.INV.RT(0.6,2,2)": "0.666666666666667", "=F.INV.RT(0.6,4,4)": "0.763454070045235", "=F.INV.RT(0.5,4,8)": "0.914645355977072", "=F.INV.RT(0.1,79,86)": "1.32646097270444", "=F.INV.RT(1,40,5)": "0", // LOGINV "=LOGINV(0.3,2,0.2)": "6.6533460753367", // LOGINV "=LOGNORM.INV(0.3,2,0.2)": "6.6533460753367", // LOGNORM.DIST "=LOGNORM.DIST(0.5,10,5,FALSE)": "0.0162104821842127", "=LOGNORM.DIST(12,10,5,TRUE)": "0.0664171147992078", // LOGNORMDIST "=LOGNORMDIST(12,10,5)": "0.0664171147992078", // NEGBINOM.DIST "=NEGBINOM.DIST(6,12,0.5,FALSE)": "0.047210693359375", "=NEGBINOM.DIST(12,12,0.5,FALSE)": "0.0805901288986206", "=NEGBINOM.DIST(15,12,0.5,FALSE)": "0.057564377784729", "=NEGBINOM.DIST(12,12,0.5,TRUE)": "0.580590128898621", "=NEGBINOM.DIST(15,12,0.5,TRUE)": "0.778965830802917", // NEGBINOMDIST "=NEGBINOMDIST(6,12,0.5)": "0.047210693359375", "=NEGBINOMDIST(12,12,0.5)": "0.0805901288986206", "=NEGBINOMDIST(15,12,0.5)": "0.057564377784729", // NORM.DIST "=NORM.DIST(0.8,1,0.3,TRUE)": "0.252492537546923", "=NORM.DIST(50,40,20,FALSE)": "0.017603266338215", // NORMDIST "=NORMDIST(0.8,1,0.3,TRUE)": "0.252492537546923", "=NORMDIST(50,40,20,FALSE)": "0.017603266338215", // NORM.INV "=NORM.INV(0.6,5,2)": "5.50669420572", // NORMINV "=NORMINV(0.6,5,2)": "5.50669420572", "=NORMINV(0.99,40,1.5)": "43.489521811582", "=NORMINV(0.02,40,1.5)": "36.9193766364954", // NORM.S.DIST "=NORM.S.DIST(0.8,TRUE)": "0.788144601416603", // NORMSDIST "=NORMSDIST(1.333333)": "0.908788725604095", "=NORMSDIST(0)": "0.5", // NORM.S.INV "=NORM.S.INV(0.25)": "-0.674489750223423", // NORMSINV "=NORMSINV(0.25)": "-0.674489750223423", // LARGE "=LARGE(A1:A5,1)": "3", "=LARGE(A1:B5,2)": "4", "=LARGE(A1,1)": "1", "=LARGE(A1:F2,1)": "36693", // MAX "=MAX(1)": "1", "=MAX(TRUE())": "1", "=MAX(0.5,TRUE())": "1", "=MAX(FALSE())": "0", "=MAX(MUNIT(2))": "1", "=MAX(INT(1))": "1", "=MAX(\"0\",\"2\")": "2", // MAXA "=MAXA(1)": "1", "=MAXA(TRUE())": "1", "=MAXA(0.5,TRUE())": "1", "=MAXA(FALSE())": "0", "=MAXA(MUNIT(2))": "1", "=MAXA(INT(1))": "1", "=MAXA(A1:B4,MUNIT(1),INT(0),1,E1:F2,\"\")": "36693", // MAXIFS "=MAXIFS(F2:F4,A2:A4,\">0\")": "36693", // MEDIAN "=MEDIAN(A1:A5,12)": "2", "=MEDIAN(A1:A5)": "1.5", "=MEDIAN(A1:A5,MEDIAN(A1:A5,12))": "2", "=MEDIAN(\"0\",\"2\")": "1", // MIN "=MIN(1)": "1", "=MIN(TRUE())": "1", "=MIN(0.5,FALSE())": "0", "=MIN(FALSE())": "0", "=MIN(MUNIT(2))": "0", "=MIN(INT(1))": "1", "=MIN(2,\"1\")": "1", // MINA "=MINA(1)": "1", "=MINA(TRUE())": "1", "=MINA(0.5,FALSE())": "0", "=MINA(FALSE())": "0", "=MINA(MUNIT(2))": "0", "=MINA(INT(1))": "1", "=MINA(A1:B4,MUNIT(1),INT(0),1,E1:F2,\"\")": "0", // MINIFS "=MINIFS(F2:F4,A2:A4,\">0\")": "22100", // PEARSON "=PEARSON(A1:A4,B1:B4)": "1", // PERCENTILE.EXC "=PERCENTILE.EXC(A1:A4,0.2)": "0", "=PERCENTILE.EXC(A1:A4,0.6)": "2", // PERCENTILE.INC "=PERCENTILE.INC(A1:A4,0.2)": "0.6", // PERCENTILE "=PERCENTILE(A1:A4,0.2)": "0.6", "=PERCENTILE(0,0)": "0", // PERCENTRANK.EXC "=PERCENTRANK.EXC(A1:B4,0)": "0.142", "=PERCENTRANK.EXC(A1:B4,2)": "0.428", "=PERCENTRANK.EXC(A1:B4,2.5)": "0.5", "=PERCENTRANK.EXC(A1:B4,2.6,1)": "0.5", "=PERCENTRANK.EXC(A1:B4,5)": "0.857", // PERCENTRANK.INC "=PERCENTRANK.INC(A1:B4,0)": "0", "=PERCENTRANK.INC(A1:B4,2)": "0.4", "=PERCENTRANK.INC(A1:B4,2.5)": "0.5", "=PERCENTRANK.INC(A1:B4,2.6,1)": "0.5", "=PERCENTRANK.INC(A1:B4,5)": "1", // PERCENTRANK "=PERCENTRANK(A1:B4,0)": "0", "=PERCENTRANK(A1:B4,2)": "0.4", "=PERCENTRANK(A1:B4,2.5)": "0.5", "=PERCENTRANK(A1:B4,2.6,1)": "0.5", "=PERCENTRANK(A1:B4,5)": "1", // PERMUT "=PERMUT(6,6)": "720", "=PERMUT(7,6)": "5040", "=PERMUT(10,6)": "151200", // PERMUTATIONA "=PERMUTATIONA(6,6)": "46656", "=PERMUTATIONA(7,6)": "117649", // PHI "=PHI(-1.5)": "0.129517595665892", "=PHI(0)": "0.398942280401433", "=PHI(0.1)": "0.396952547477012", "=PHI(1)": "0.241970724519143", // QUARTILE "=QUARTILE(A1:A4,2)": "1.5", // QUARTILE.EXC "=QUARTILE.EXC(A1:A4,1)": "0.25", "=QUARTILE.EXC(A1:A4,2)": "1.5", "=QUARTILE.EXC(A1:A4,3)": "2.75", // QUARTILE.INC "=QUARTILE.INC(A1:A4,0)": "0", // RANK "=RANK(1,A1:B5)": "5", "=RANK(1,A1:B5,0)": "5", "=RANK(1,A1:B5,1)": "2", // RANK.EQ "=RANK.EQ(1,A1:B5)": "5", "=RANK.EQ(1,A1:B5,0)": "5", "=RANK.EQ(1,A1:B5,1)": "2", // RSQ "=RSQ(A1:A4,B1:B4)": "1", // SKEW "=SKEW(1,2,3,4,3)": "-0.404796008910937", "=SKEW(A1:B2)": "0", "=SKEW(A1:D3)": "0", // SKEW.P "=SKEW.P(1,2,3,4,3)": "-0.27154541788364", "=SKEW.P(A1:B2)": "0", "=SKEW.P(A1:D3)": "0", // SLOPE "=SLOPE(A1:A4,B1:B4)": "1", // SMALL "=SMALL(A1:A5,1)": "0", "=SMALL(A1:B5,2)": "1", "=SMALL(A1,1)": "1", "=SMALL(A1:F2,1)": "1", // STANDARDIZE "=STANDARDIZE(5.5,5,2)": "0.25", "=STANDARDIZE(12,15,1.5)": "-2", "=STANDARDIZE(-2,0,5)": "-0.4", // STDEVP "=STDEVP(A1:B2,6,-1)": "2.40947204913349", // STDEV.P "=STDEV.P(A1:B2,6,-1)": "2.40947204913349", // STDEVPA "=STDEVPA(1,3,5,2)": "1.4790199457749", "=STDEVPA(1,3,5,2,1,0)": "1.63299316185545", "=STDEVPA(1,3,5,2,TRUE,\"text\")": "1.63299316185545", // T.DIST "=T.DIST(1,10,TRUE)": "0.82955343384897", "=T.DIST(-1,10,TRUE)": "0.17044656615103", "=T.DIST(-1,10,FALSE)": "0.230361989229139", // T.DIST.2T "=T.DIST.2T(1,10)": "0.34089313230206", // T.DIST.RT "=T.DIST.RT(1,10)": "0.17044656615103", "=T.DIST.RT(-1,10)": "0.82955343384897", // TDIST "=TDIST(1,10,1)": "0.17044656615103", "=TDIST(1,10,2)": "0.34089313230206", // T.INV "=T.INV(0.25,10)": "-0.699812061312432", "=T.INV(0.75,10)": "0.699812061312432", // T.INV.2T "=T.INV.2T(1,10)": "0", "=T.INV.2T(0.5,10)": "0.699812061312432", // TINV "=TINV(1,10)": "0", "=TINV(0.5,10)": "0.699812061312432", // TRIMMEAN "=TRIMMEAN(A1:B4,10%)": "2.5", "=TRIMMEAN(A1:B4,70%)": "2.5", // VAR "=VAR(1,3,5,0,C1)": "4.91666666666667", "=VAR(1,3,5,0,C1,TRUE)": "4", // VARA "=VARA(1,3,5,0,C1)": "4.91666666666667", "=VARA(1,3,5,0,C1,TRUE)": "4", // VARP "=VARP(A1:A5)": "1.25", "=VARP(1,3,5,0,C1,TRUE)": "3.2", // VAR.P "=VAR.P(A1:A5)": "1.25", // VAR.S "=VAR.S(1,3,5,0,C1)": "4.91666666666667", "=VAR.S(1,3,5,0,C1,TRUE)": "4", // VARPA "=VARPA(1,3,5,0,C1)": "3.6875", "=VARPA(1,3,5,0,C1,TRUE)": "3.2", // WEIBULL "=WEIBULL(1,3,1,FALSE)": "1.10363832351433", "=WEIBULL(2,5,1.5,TRUE)": "0.985212776817482", // WEIBULL.DIST "=WEIBULL.DIST(1,3,1,FALSE)": "1.10363832351433", "=WEIBULL.DIST(2,5,1.5,TRUE)": "0.985212776817482", // Information Functions // ERROR.TYPE "=ERROR.TYPE(1/0)": "2", "=ERROR.TYPE(COT(0))": "2", "=ERROR.TYPE(XOR(\"text\"))": "3", "=ERROR.TYPE(HEX2BIN(2,1))": "6", "=ERROR.TYPE(NA())": "7", // ISBLANK "=ISBLANK(A1)": "FALSE", "=ISBLANK(A5)": "TRUE", // ISERR "=ISERR(A1)": "FALSE", "=ISERR(NA())": "FALSE", "=ISERR(POWER(0,-1)))": "TRUE", // ISERROR "=ISERROR(A1)": "FALSE", "=ISERROR(NA())": "TRUE", "=ISERROR(\"#VALUE!\")": "FALSE", // ISEVEN "=ISEVEN(A1)": "FALSE", "=ISEVEN(A2)": "TRUE", "=ISEVEN(G1)": "TRUE", // ISFORMULA "=ISFORMULA(A1)": "FALSE", "=ISFORMULA(\"A\")": "FALSE", // ISLOGICAL "=ISLOGICAL(TRUE)": "TRUE", "=ISLOGICAL(FALSE)": "TRUE", "=ISLOGICAL(A1=A2)": "TRUE", "=ISLOGICAL(\"true\")": "TRUE", "=ISLOGICAL(\"false\")": "TRUE", "=ISLOGICAL(A1)": "FALSE", "=ISLOGICAL(20/5)": "FALSE", // ISNA "=ISNA(A1)": "FALSE", "=ISNA(NA())": "TRUE", // ISNONTEXT "=ISNONTEXT(A1)": "TRUE", "=ISNONTEXT(A5)": "TRUE", `=ISNONTEXT("Excelize")`: "FALSE", "=ISNONTEXT(NA())": "TRUE", // ISNUMBER "=ISNUMBER(A1)": "TRUE", "=ISNUMBER(D1)": "FALSE", // ISODD "=ISODD(A1)": "TRUE", "=ISODD(A2)": "FALSE", // ISREF "=ISREF(B1)": "TRUE", "=ISREF(B1:B2)": "TRUE", "=ISREF(\"text\")": "FALSE", "=ISREF(B1*B2)": "FALSE", // ISTEXT "=ISTEXT(D1)": "TRUE", "=ISTEXT(A1)": "FALSE", // N "=N(10)": "10", "=N(\"10\")": "10", "=N(\"x\")": "0", "=N(TRUE)": "1", "=N(FALSE)": "0", // SHEET "=SHEET()": "1", "=SHEET(\"Sheet1\")": "1", // SHEETS "=SHEETS()": "1", "=SHEETS(A1)": "1", // TYPE "=TYPE(2)": "1", "=TYPE(10/2)": "1", "=TYPE(C2)": "1", "=TYPE(\"text\")": "2", "=TYPE(TRUE)": "4", "=TYPE(NA())": "16", "=TYPE(MUNIT(2))": "64", // T "=T(\"text\")": "text", "=T(N(10))": "", // Logical Functions // AND "=AND(0)": "FALSE", "=AND(1)": "TRUE", "=AND(1,0)": "FALSE", "=AND(0,1)": "FALSE", "=AND(1=1)": "TRUE", "=AND(1<2)": "TRUE", "=AND(1>2,2<3,2>0,3>1)": "FALSE", "=AND(1=1),1=1": "TRUE", "=AND(\"TRUE\",\"FALSE\")": "FALSE", // FALSE "=FALSE()": "FALSE", // IFERROR "=IFERROR(1/2,0)": "0.5", "=IFERROR(ISERROR(),0)": "0", "=IFERROR(1/0,0)": "0", "=IFERROR(G1,2)": "0", "=IFERROR(B2/MROUND(A2,1),0)": "2.5", // IFNA "=IFNA(1,\"not found\")": "1", "=IFNA(NA(),\"not found\")": "not found", // IFS "=IFS(4>1,5/4,4<-1,-5/4,TRUE,0)": "1.25", "=IFS(-2>1,5/-2,-2<-1,-5/-2,TRUE,0)": "2.5", "=IFS(0>1,5/0,0<-1,-5/0,TRUE,0)": "0", // NOT "=NOT(FALSE())": "TRUE", "=NOT(\"false\")": "TRUE", "=NOT(\"true\")": "FALSE", "=NOT(ISBLANK(B1))": "TRUE", // OR "=OR(1)": "TRUE", "=OR(0)": "FALSE", "=OR(1=2,2=2)": "TRUE", "=OR(1=2,2=3)": "FALSE", "=OR(1=1,2=3)": "TRUE", "=OR(\"TRUE\",\"FALSE\")": "TRUE", // SWITCH "=SWITCH(1,1,\"A\",2,\"B\",3,\"C\",\"N\")": "A", "=SWITCH(3,1,\"A\",2,\"B\",3,\"C\",\"N\")": "C", "=SWITCH(4,1,\"A\",2,\"B\",3,\"C\",\"N\")": "N", // TRUE "=TRUE()": "TRUE", // XOR "=XOR(1>0,2>0)": "FALSE", "=XOR(1>0,0>1)": "TRUE", "=XOR(1>0,0>1,INT(0),INT(1),A1:A4,2)": "FALSE", // Date and Time Functions // DATE "=DATE(2020,10,21)": "2020-10-21 00:00:00 +0000 UTC", "=DATE(1900,1,1)": "1899-12-31 00:00:00 +0000 UTC", // DATEDIF "=DATEDIF(43101,43101,\"D\")": "0", "=DATEDIF(43101,43891,\"d\")": "790", "=DATEDIF(43101,43891,\"Y\")": "2", "=DATEDIF(42156,44242,\"y\")": "5", "=DATEDIF(43101,43891,\"M\")": "26", "=DATEDIF(42171,44242,\"m\")": "67", "=DATEDIF(42156,44454,\"MD\")": "14", "=DATEDIF(42171,44242,\"md\")": "30", "=DATEDIF(43101,43891,\"YM\")": "2", "=DATEDIF(42171,44242,\"ym\")": "7", "=DATEDIF(43101,43891,\"YD\")": "59", "=DATEDIF(36526,73110,\"YD\")": "60", "=DATEDIF(42171,44242,\"yd\")": "244", // DATEVALUE "=DATEVALUE(\"01/01/16\")": "42370", "=DATEVALUE(\"01/01/2016\")": "42370", "=DATEVALUE(\"01/01/29\")": "47119", "=DATEVALUE(\"01/01/30\")": "10959", // DAY "=DAY(0)": "0", "=DAY(INT(7))": "7", "=DAY(\"35\")": "4", "=DAY(42171)": "16", "=DAY(\"2-28-1900\")": "28", "=DAY(\"31-May-2015\")": "31", "=DAY(\"01/03/2019 12:14:16\")": "3", "=DAY(\"January 25, 2020 01 AM\")": "25", "=DAY(\"January 25, 2020 01:03 AM\")": "25", "=DAY(\"January 25, 2020 12:00:00 AM\")": "25", "=DAY(\"1900-1-1\")": "1", "=DAY(\"12-1-1900\")": "1", "=DAY(\"3-January-1900\")": "3", "=DAY(\"3-February-2000\")": "3", "=DAY(\"3-February-2008\")": "3", "=DAY(\"01/25/20\")": "25", "=DAY(\"01/25/31\")": "25", // DAYS "=DAYS(2,1)": "1", "=DAYS(INT(2),INT(1))": "1", "=DAYS(\"02/02/2015\",\"01/01/2015\")": "32", // DAYS360 "=DAYS360(\"10/10/2020\", \"10/10/2020\")": "0", "=DAYS360(\"01/30/1999\", \"02/28/1999\")": "28", "=DAYS360(\"01/31/1999\", \"02/28/1999\")": "28", "=DAYS360(\"12/12/1999\", \"08/31/1999\")": "-101", "=DAYS360(\"12/12/1999\", \"11/30/1999\")": "-12", "=DAYS360(\"12/12/1999\", \"11/30/1999\",TRUE)": "-12", "=DAYS360(\"01/31/1999\", \"03/31/1999\",TRUE)": "60", "=DAYS360(\"01/31/1999\", \"03/31/2000\",FALSE)": "420", // EDATE "=EDATE(\"01/01/2021\",-1)": "44166", "=EDATE(\"01/31/2020\",1)": "43890", "=EDATE(\"01/29/2020\",12)": "44225", "=EDATE(\"6/12/2021\",-14)": "43933", // EOMONTH "=EOMONTH(\"01/01/2021\",-1)": "44196", "=EOMONTH(\"01/29/2020\",12)": "44227", "=EOMONTH(\"01/12/2021\",-18)": "43677", // HOUR "=HOUR(1)": "0", "=HOUR(43543.5032060185)": "12", "=HOUR(\"43543.5032060185\")": "12", "=HOUR(\"13:00:55\")": "13", "=HOUR(\"1:00 PM\")": "13", "=HOUR(\"12/09/2015 08:55\")": "8", // ISOWEEKNUM "=ISOWEEKNUM(42370)": "53", "=ISOWEEKNUM(\"42370\")": "53", "=ISOWEEKNUM(\"01/01/2005\")": "53", "=ISOWEEKNUM(\"02/02/2005\")": "5", // MINUTE "=MINUTE(1)": "0", "=MINUTE(0.04)": "57", "=MINUTE(\"0.04\")": "57", "=MINUTE(\"13:35:55\")": "35", "=MINUTE(\"12/09/2015 08:55\")": "55", // MONTH "=MONTH(42171)": "6", "=MONTH(\"31-May-2015\")": "5", // YEAR "=YEAR(15)": "1900", "=YEAR(\"15\")": "1900", "=YEAR(2048)": "1905", "=YEAR(42171)": "2015", "=YEAR(\"29-May-2015\")": "2015", "=YEAR(\"05/03/1984\")": "1984", // YEARFRAC "=YEARFRAC(42005,42005)": "0", "=YEARFRAC(42005,42094)": "0.25", "=YEARFRAC(42005,42094,0)": "0.25", "=YEARFRAC(42005,42094,1)": "0.243835616438356", "=YEARFRAC(42005,42094,2)": "0.247222222222222", "=YEARFRAC(42005,42094,3)": "0.243835616438356", "=YEARFRAC(42005,42094,4)": "0.247222222222222", "=YEARFRAC(\"01/01/2015\",\"03/31/2015\")": "0.25", "=YEARFRAC(\"01/01/2015\",\"03/31/2015\",0)": "0.25", "=YEARFRAC(\"01/01/2015\",\"03/31/2015\",1)": "0.243835616438356", "=YEARFRAC(\"01/01/2015\",\"03/31/2015\",2)": "0.247222222222222", "=YEARFRAC(\"01/01/2015\",\"03/31/2015\",3)": "0.243835616438356", "=YEARFRAC(\"01/01/2015\",\"03/31/2015\",4)": "0.247222222222222", "=YEARFRAC(\"01/01/2015\",42094)": "0.25", "=YEARFRAC(42005,\"03/31/2015\",0)": "0.25", "=YEARFRAC(\"01/31/2015\",\"03/31/2015\")": "0.166666666666667", "=YEARFRAC(\"01/30/2015\",\"03/31/2015\")": "0.166666666666667", "=YEARFRAC(\"02/29/2000\", \"02/29/2008\")": "8", "=YEARFRAC(\"02/29/2000\", \"02/29/2008\",1)": "7.99817518248175", "=YEARFRAC(\"02/29/2000\", \"01/29/2001\",1)": "0.915300546448087", "=YEARFRAC(\"02/29/2000\", \"03/29/2000\",1)": "0.0792349726775956", "=YEARFRAC(\"01/31/2000\", \"03/29/2000\",4)": "0.163888888888889", // SECOND "=SECOND(\"13:35:55\")": "55", "=SECOND(\"13:10:60\")": "0", "=SECOND(\"13:10:61\")": "1", "=SECOND(\"08:17:00\")": "0", "=SECOND(\"12/09/2015 08:55\")": "0", "=SECOND(\"12/09/2011 08:17:23\")": "23", "=SECOND(\"43543.5032060185\")": "37", "=SECOND(43543.5032060185)": "37", // TIME "=TIME(5,44,32)": "0.239259259259259", "=TIME(\"5\",\"44\",\"32\")": "0.239259259259259", "=TIME(0,0,73)": "0.000844907407407407", // TIMEVALUE "=TIMEVALUE(\"2:23\")": "0.0993055555555555", "=TIMEVALUE(\"2:23 am\")": "0.0993055555555555", "=TIMEVALUE(\"2:23 PM\")": "0.599305555555556", "=TIMEVALUE(\"14:23:00\")": "0.599305555555556", "=TIMEVALUE(\"00:02:23\")": "0.00165509259259259", "=TIMEVALUE(\"01/01/2011 02:23\")": "0.0993055555555555", // WEEKDAY "=WEEKDAY(0)": "7", "=WEEKDAY(47119)": "2", "=WEEKDAY(\"12/25/2012\")": "3", "=WEEKDAY(\"12/25/2012\",1)": "3", "=WEEKDAY(\"12/25/2012\",2)": "2", "=WEEKDAY(\"12/25/2012\",3)": "1", "=WEEKDAY(\"12/25/2012\",11)": "2", "=WEEKDAY(\"12/25/2012\",12)": "1", "=WEEKDAY(\"12/25/2012\",13)": "7", "=WEEKDAY(\"12/25/2012\",14)": "6", "=WEEKDAY(\"12/25/2012\",15)": "5", "=WEEKDAY(\"12/25/2012\",16)": "4", "=WEEKDAY(\"12/25/2012\",17)": "3", // WEEKNUM "=WEEKNUM(\"01/01/2011\")": "1", "=WEEKNUM(\"01/03/2011\")": "2", "=WEEKNUM(\"01/13/2008\")": "3", "=WEEKNUM(\"01/21/2008\")": "4", "=WEEKNUM(\"01/30/2008\")": "5", "=WEEKNUM(\"02/04/2008\")": "6", "=WEEKNUM(\"01/02/2017\",2)": "2", "=WEEKNUM(\"01/02/2017\",12)": "1", "=WEEKNUM(\"12/31/2017\",21)": "52", "=WEEKNUM(\"01/01/2017\",21)": "52", "=WEEKNUM(\"01/01/2021\",21)": "53", // Text Functions // CHAR "=CHAR(65)": "A", "=CHAR(97)": "a", "=CHAR(63)": "?", "=CHAR(51)": "3", // CLEAN "=CLEAN(\"\u0009clean text\")": "clean text", "=CLEAN(0)": "0", // CODE "=CODE(\"Alpha\")": "65", "=CODE(\"alpha\")": "97", "=CODE(\"?\")": "63", "=CODE(\"3\")": "51", "=CODE(\"\")": "0", // CONCAT "=CONCAT(TRUE(),1,FALSE(),\"0\",INT(2))": "TRUE1FALSE02", // CONCATENATE "=CONCATENATE(TRUE(),1,FALSE(),\"0\",INT(2))": "TRUE1FALSE02", // EXACT "=EXACT(1,\"1\")": "TRUE", "=EXACT(1,1)": "TRUE", "=EXACT(\"A\",\"a\")": "FALSE", // FIXED "=FIXED(5123.591)": "5,123.591", "=FIXED(5123.591,1)": "5,123.6", "=FIXED(5123.591,0)": "5,124", "=FIXED(5123.591,-1)": "5,120", "=FIXED(5123.591,-2)": "5,100", "=FIXED(5123.591,-3,TRUE)": "5000", "=FIXED(5123.591,-5)": "0", "=FIXED(-77262.23973,-5)": "-100,000", // FIND "=FIND(\"T\",\"Original Text\")": "10", "=FIND(\"t\",\"Original Text\")": "13", "=FIND(\"i\",\"Original Text\")": "3", "=FIND(\"i\",\"Original Text\",4)": "5", "=FIND(\"\",\"Original Text\")": "1", "=FIND(\"\",\"Original Text\",2)": "2", // FINDB "=FINDB(\"T\",\"Original Text\")": "10", "=FINDB(\"t\",\"Original Text\")": "13", "=FINDB(\"i\",\"Original Text\")": "3", "=FINDB(\"i\",\"Original Text\",4)": "5", "=FINDB(\"\",\"Original Text\")": "1", "=FINDB(\"\",\"Original Text\",2)": "2", // LEFT "=LEFT(\"Original Text\")": "O", "=LEFT(\"Original Text\",4)": "Orig", "=LEFT(\"Original Text\",0)": "", "=LEFT(\"Original Text\",13)": "Original Text", "=LEFT(\"Original Text\",20)": "Original Text", // LEFTB "=LEFTB(\"Original Text\")": "O", "=LEFTB(\"Original Text\",4)": "Orig", "=LEFTB(\"Original Text\",0)": "", "=LEFTB(\"Original Text\",13)": "Original Text", "=LEFTB(\"Original Text\",20)": "Original Text", // LEN "=LEN(\"\")": "0", "=LEN(D1)": "5", // LENB "=LENB(\"\")": "0", "=LENB(D1)": "5", // LOWER "=LOWER(\"test\")": "test", "=LOWER(\"TEST\")": "test", "=LOWER(\"Test\")": "test", "=LOWER(\"TEST 123\")": "test 123", // MID "=MID(\"Original Text\",7,1)": "a", "=MID(\"Original Text\",4,7)": "ginal T", "=MID(\"255 years\",3,1)": "5", "=MID(\"text\",3,6)": "xt", "=MID(\"text\",6,0)": "", // MIDB "=MIDB(\"Original Text\",7,1)": "a", "=MIDB(\"Original Text\",4,7)": "ginal T", "=MIDB(\"255 years\",3,1)": "5", "=MIDB(\"text\",3,6)": "xt", "=MIDB(\"text\",6,0)": "", // PROPER "=PROPER(\"this is a test sentence\")": "This Is A Test Sentence", "=PROPER(\"THIS IS A TEST SENTENCE\")": "This Is A Test Sentence", "=PROPER(\"123tEST teXT\")": "123Test Text", "=PROPER(\"Mr. SMITH's address\")": "Mr. Smith'S Address", // REPLACE "=REPLACE(\"test string\",7,3,\"X\")": "test sXng", "=REPLACE(\"second test string\",8,4,\"XXX\")": "second XXX string", "=REPLACE(\"text\",5,0,\" and char\")": "text and char", "=REPLACE(\"text\",1,20,\"char and \")": "char and ", // REPLACEB "=REPLACEB(\"test string\",7,3,\"X\")": "test sXng", "=REPLACEB(\"second test string\",8,4,\"XXX\")": "second XXX string", "=REPLACEB(\"text\",5,0,\" and char\")": "text and char", "=REPLACEB(\"text\",1,20,\"char and \")": "char and ", // REPT "=REPT(\"*\",0)": "", "=REPT(\"*\",1)": "*", "=REPT(\"**\",2)": "****", // RIGHT "=RIGHT(\"Original Text\")": "t", "=RIGHT(\"Original Text\",4)": "Text", "=RIGHT(\"Original Text\",0)": "", "=RIGHT(\"Original Text\",13)": "Original Text", "=RIGHT(\"Original Text\",20)": "Original Text", // RIGHTB "=RIGHTB(\"Original Text\")": "t", "=RIGHTB(\"Original Text\",4)": "Text", "=RIGHTB(\"Original Text\",0)": "", "=RIGHTB(\"Original Text\",13)": "Original Text", "=RIGHTB(\"Original Text\",20)": "Original Text", // SUBSTITUTE "=SUBSTITUTE(\"abab\",\"a\",\"X\")": "XbXb", "=SUBSTITUTE(\"abab\",\"a\",\"X\",2)": "abXb", "=SUBSTITUTE(\"abab\",\"x\",\"X\",2)": "abab", "=SUBSTITUTE(\"John is 5 years old\",\"John\",\"Jack\")": "Jack is 5 years old", "=SUBSTITUTE(\"John is 5 years old\",\"5\",\"6\")": "John is 6 years old", // TEXTJOIN "=TEXTJOIN(\"-\",TRUE,1,2,3,4)": "1-2-3-4", "=TEXTJOIN(A4,TRUE,A1:B2)": "1040205", "=TEXTJOIN(\",\",FALSE,A1:C2)": "1,4,,2,5,", "=TEXTJOIN(\",\",TRUE,A1:C2)": "1,4,2,5", "=TEXTJOIN(\",\",TRUE,MUNIT(2))": "1,0,0,1", // TRIM "=TRIM(\" trim text \")": "trim text", "=TRIM(0)": "0", // UNICHAR "=UNICHAR(65)": "A", "=UNICHAR(97)": "a", "=UNICHAR(63)": "?", "=UNICHAR(51)": "3", // UNICODE "=UNICODE(\"Alpha\")": "65", "=UNICODE(\"alpha\")": "97", "=UNICODE(\"?\")": "63", "=UNICODE(\"3\")": "51", // UPPER "=UPPER(\"test\")": "TEST", "=UPPER(\"TEST\")": "TEST", "=UPPER(\"Test\")": "TEST", "=UPPER(\"TEST 123\")": "TEST 123", // VALUE "=VALUE(\"50\")": "50", "=VALUE(\"1.0E-07\")": "0.0000001", "=VALUE(\"5,000\")": "5000", "=VALUE(\"20%\")": "0.2", "=VALUE(\"12:00:00\")": "0.5", "=VALUE(\"01/02/2006 15:04:05\")": "38719.6278356481", // Conditional Functions // IF "=IF(1=1)": "TRUE", "=IF(1<>1)": "FALSE", "=IF(5<0, \"negative\", \"positive\")": "positive", "=IF(-2<0, \"negative\", \"positive\")": "negative", "=IF(1=1, \"equal\", \"notequal\")": "equal", "=IF(1<>1, \"equal\", \"notequal\")": "notequal", "=IF(\"A\"=\"A\", \"equal\", \"notequal\")": "equal", "=IF(\"A\"<>\"A\", \"equal\", \"notequal\")": "notequal", "=IF(FALSE,0,ROUND(4/2,0))": "2", "=IF(TRUE,ROUND(4/2,0),0)": "2", "=IF(A4>0.4,\"TRUE\",\"FALSE\")": "FALSE", // Excel Lookup and Reference Functions // ADDRESS "=ADDRESS(1,1,1,TRUE)": "$A$1", "=ADDRESS(1,2,1,TRUE)": "$B$1", "=ADDRESS(1,1,1,FALSE)": "R1C1", "=ADDRESS(1,2,1,FALSE)": "R1C2", "=ADDRESS(1,1,2,TRUE)": "A$1", "=ADDRESS(1,2,2,TRUE)": "B$1", "=ADDRESS(1,1,2,FALSE)": "R1C[1]", "=ADDRESS(1,2,2,FALSE)": "R1C[2]", "=ADDRESS(1,1,3,TRUE)": "$A1", "=ADDRESS(1,2,3,TRUE)": "$B1", "=ADDRESS(1,1,3,FALSE)": "R[1]C1", "=ADDRESS(1,2,3,FALSE)": "R[1]C2", "=ADDRESS(1,1,4,TRUE)": "A1", "=ADDRESS(1,2,4,TRUE)": "B1", "=ADDRESS(1,1,4,FALSE)": "R[1]C[1]", "=ADDRESS(1,2,4,FALSE)": "R[1]C[2]", "=ADDRESS(1,1,4,TRUE,\"\")": "!A1", "=ADDRESS(1,2,4,TRUE,\"\")": "!B1", "=ADDRESS(1,1,4,TRUE,\"Sheet1\")": "Sheet1!A1", // CHOOSE "=CHOOSE(4,\"red\",\"blue\",\"green\",\"brown\")": "brown", "=CHOOSE(1,\"red\",\"blue\",\"green\",\"brown\")": "red", "=SUM(CHOOSE(A2,A1,B1:B2,A1:A3,A1:A4))": "9", // COLUMN "=COLUMN()": "3", "=COLUMN(Sheet1!A1)": "1", "=COLUMN(Sheet1!A1:B1:C1)": "1", "=COLUMN(Sheet1!F1:G1)": "6", "=COLUMN(H1)": "8", // COLUMNS "=COLUMNS(B1)": "1", "=COLUMNS(1:1)": "16384", "=COLUMNS(Sheet1!1:1)": "16384", "=COLUMNS(B1:E5)": "4", "=COLUMNS(Sheet1!E5:H7:B1)": "7", "=COLUMNS(E5:H7:B1:C1:Z1:C1:B1)": "25", "=COLUMNS(E5:B1)": "4", "=COLUMNS(EM38:HZ81)": "92", // HLOOKUP "=HLOOKUP(D2,D2:D8,1,FALSE)": "Jan", "=HLOOKUP(F3,F3:F8,3,FALSE)": "34440", "=HLOOKUP(INT(F3),F3:F8,3,FALSE)": "34440", "=HLOOKUP(MUNIT(1),MUNIT(1),1,FALSE)": "1", // HYPERLINK "=HYPERLINK(\"https://github.com/xuri/excelize\")": "https://github.com/xuri/excelize", "=HYPERLINK(\"https://github.com/xuri/excelize\",\"Excelize\")": "Excelize", // VLOOKUP "=VLOOKUP(D2,D:D,1,FALSE)": "Jan", "=VLOOKUP(D2,D1:D10,1)": "Jan", "=VLOOKUP(D2,D1:D11,1)": "Feb", "=VLOOKUP(D2,D1:D10,1,FALSE)": "Jan", "=VLOOKUP(INT(36693),F2:F2,1,FALSE)": "36693", "=VLOOKUP(INT(F2),F3:F9,1)": "32080", "=VLOOKUP(INT(F2),F3:F9,1,TRUE)": "32080", "=VLOOKUP(MUNIT(3),MUNIT(3),1)": "0", "=VLOOKUP(A1,A3:B5,1)": "0", "=VLOOKUP(A1:A2,A1:A1,1)": "1", "=VLOOKUP(MUNIT(1),MUNIT(1),1,FALSE)": "1", // INDEX "=INDEX(0,0,0)": "0", "=INDEX(A1,0,0)": "1", "=INDEX(A1:A1,0,0)": "1", "=SUM(INDEX(A1:B1,1))": "5", "=SUM(INDEX(A1:B1,1,0))": "5", "=SUM(INDEX(A1:B2,2,0))": "7", "=SUM(INDEX(A1:B4,0,2))": "9", "=SUM(INDEX(E1:F5,5,2))": "34440", // INDIRECT "=INDIRECT(\"E1\")": "Team", "=INDIRECT(\"E\"&1)": "Team", "=INDIRECT(\"E\"&ROW())": "Team", "=INDIRECT(\"E\"&ROW(),TRUE)": "Team", "=INDIRECT(\"R1C5\",FALSE)": "Team", "=INDIRECT(\"R\"&1&\"C\"&5,FALSE)": "Team", "=SUM(INDIRECT(\"A1:B2\"))": "12", "=SUM(INDIRECT(\"A1:B2\",TRUE))": "12", "=SUM(INDIRECT(\"R1C1:R2C2\",FALSE))": "12", // LOOKUP "=LOOKUP(F8,F8:F9,F8:F9)": "32080", "=LOOKUP(F8,F8:F9,D8:D9)": "Feb", "=LOOKUP(E3,E2:E5,F2:F5)": "22100", "=LOOKUP(E3,E2:F5)": "22100", "=LOOKUP(F3+1,F3:F4,F3:F4)": "22100", "=LOOKUP(F4+1,F3:F4,F3:F4)": "53321", "=LOOKUP(1,MUNIT(1))": "1", "=LOOKUP(1,MUNIT(1),MUNIT(1))": "1", // ROW "=ROW()": "1", "=ROW(Sheet1!A1)": "1", "=ROW(Sheet1!A1:B2:C3)": "1", "=ROW(Sheet1!F5:G6)": "5", "=ROW(A8)": "8", // ROWS "=ROWS(B1)": "1", "=ROWS(B:B)": "1048576", "=ROWS(Sheet1!B:B)": "1048576", "=ROWS(B1:E5)": "5", "=ROWS(Sheet1!E5:H7:B1)": "7", "=ROWS(E5:H8:B2:C3:Z26:C3:B2)": "25", "=ROWS(E5:B1)": "5", "=ROWS(EM38:HZ81)": "44", // Web Functions // ENCODEURL "=ENCODEURL(\"https://xuri.me/excelize/en/?q=Save As\")": "https%3A%2F%2Fxuri.me%2Fexcelize%2Fen%2F%3Fq%3DSave%20As", // Financial Functions // ACCRINT "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"12/31/2013\",8%,10000,4,0,TRUE)": "1600", "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"12/31/2013\",8%,10000,4,0,FALSE)": "1600", // ACCRINTM "=ACCRINTM(\"01/01/2012\",\"12/31/2012\",8%,10000)": "800", "=ACCRINTM(\"01/01/2012\",\"12/31/2012\",8%,10000,3)": "800", // AMORDEGRC "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,1,20%)": "42", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,1,20%,4)": "42", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,1,40%,4)": "42", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,1,25%,4)": "41", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",109,1,25%,4)": "54", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",110,2,25%,4)": "0", // AMORLINC "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,1,20%,4)": "30", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,1,0%,4)": "0", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,20,15%,4)": "0", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,6,15%,4)": "0.6875", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,0,15%,4)": "16.8125", // COUPDAYBS "=COUPDAYBS(\"02/24/2000\",\"11/24/2000\",4,4)": "0", "=COUPDAYBS(\"03/27/2000\",\"11/29/2000\",4,4)": "28", "=COUPDAYBS(\"02/29/2000\",\"04/01/2000\",4,4)": "58", "=COUPDAYBS(\"01/01/2011\",\"10/25/2012\",4)": "66", "=COUPDAYBS(\"01/01/2011\",\"10/25/2012\",4,1)": "68", "=COUPDAYBS(\"10/31/2011\",\"02/26/2012\",4,0)": "65", // COUPDAYS "=COUPDAYS(\"01/01/2011\",\"10/25/2012\",4)": "90", "=COUPDAYS(\"01/01/2011\",\"10/25/2012\",4,1)": "92", // COUPDAYSNC "=COUPDAYSNC(\"01/01/2011\",\"10/25/2012\",4)": "24", "=COUPDAYSNC(\"04/01/2012\",\"03/31/2020\",2)": "179", // COUPNCD "=COUPNCD(\"01/01/2011\",\"10/25/2012\",4)": "40568", "=COUPNCD(\"01/01/2011\",\"10/25/2012\",4,0)": "40568", "=COUPNCD(\"10/25/2011\",\"01/01/2012\",4)": "40909", "=COUPNCD(\"04/01/2012\",\"03/31/2020\",2)": "41182", "=COUPNCD(\"01/01/2000\",\"08/30/2001\",2)": "36585", // COUPNUM "=COUPNUM(\"01/01/2011\",\"10/25/2012\",4)": "8", "=COUPNUM(\"01/01/2011\",\"10/25/2012\",4,0)": "8", "=COUPNUM(\"09/30/2017\",\"03/31/2021\",4,0)": "14", // COUPPCD "=COUPPCD(\"01/01/2011\",\"10/25/2012\",4)": "40476", "=COUPPCD(\"01/01/2011\",\"10/25/2012\",4,0)": "40476", "=COUPPCD(\"10/25/2011\",\"01/01/2012\",4)": "40817", // CUMIPMT "=CUMIPMT(0.05/12,60,50000,1,12,0)": "-2294.97753732664", "=CUMIPMT(0.05/12,60,50000,13,24,0)": "-1833.10006657389", // CUMPRINC "=CUMPRINC(0.05/12,60,50000,1,12,0)": "-9027.76264907988", "=CUMPRINC(0.05/12,60,50000,13,24,0)": "-9489.64011983263", // DB "=DB(0,1000,5,1)": "0", "=DB(10000,1000,5,1)": "3690", "=DB(10000,1000,5,2)": "2328.39", "=DB(10000,1000,5,1,6)": "1845", "=DB(10000,1000,5,6,6)": "238.527124587882", // DDB "=DDB(0,1000,5,1)": "0", "=DDB(10000,1000,5,1)": "4000", "=DDB(10000,1000,5,2)": "2400", "=DDB(10000,1000,5,3)": "1440", "=DDB(10000,1000,5,4)": "864", "=DDB(10000,1000,5,5)": "296", // DISC "=DISC(\"04/01/2016\",\"03/31/2021\",95,100)": "0.01", // DOLLARDE "=DOLLARDE(1.01,16)": "1.0625", // DOLLARFR "=DOLLARFR(1.0625,16)": "1.01", // DURATION "=DURATION(\"04/01/2015\",\"03/31/2025\",10%,8%,4)": "6.67442279848313", // EFFECT "=EFFECT(0.1,4)": "0.103812890625", "=EFFECT(0.025,2)": "0.02515625", // EUROCONVERT "=EUROCONVERT(1.47,\"EUR\",\"EUR\")": "1.47", "=EUROCONVERT(1.47,\"EUR\",\"DEM\")": "2.88", "=EUROCONVERT(1.47,\"FRF\",\"DEM\")": "0.44", "=EUROCONVERT(1.47,\"FRF\",\"DEM\",FALSE)": "0.44", "=EUROCONVERT(1.47,\"FRF\",\"DEM\",FALSE,3)": "0.44", "=EUROCONVERT(1.47,\"FRF\",\"DEM\",TRUE,3)": "0.43810592", // FV "=FV(0.05/12,60,-1000)": "68006.0828408434", "=FV(0.1/4,16,-2000,0,1)": "39729.4608941662", "=FV(0,16,-2000)": "32000", // FVSCHEDULE "=FVSCHEDULE(10000,A1:A5)": "240000", "=FVSCHEDULE(10000,0.5)": "15000", // INTRATE "=INTRATE(\"04/01/2005\",\"03/31/2010\",1000,2125)": "0.225", // IPMT "=IPMT(0.05/12,2,60,50000)": "-205.26988187972", "=IPMT(0.035/4,2,8,0,5000,1)": "5.25745523782908", // ISPMT "=ISPMT(0.05/12,1,60,50000)": "-204.861111111111", "=ISPMT(0.05/12,2,60,50000)": "-201.388888888889", "=ISPMT(0.05/12,2,1,50000)": "208.333333333333", // MDURATION "=MDURATION(\"04/01/2015\",\"03/31/2025\",10%,8%,4)": "6.54355176321876", // NOMINAL "=NOMINAL(0.025,12)": "0.0247180352381129", // NPER "=NPER(0.04,-6000,50000)": "10.3380350715077", "=NPER(0,-6000,50000)": "8.33333333333333", "=NPER(0.06/4,-2000,60000,30000,1)": "52.7947737092748", // NPV "=NPV(0.02,-5000,\"\",800)": "-4133.02575932334", // ODDFPRICE "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,2)": "107.691830256629", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,4,1)": "106.766915010929", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,4,3)": "106.7819138147", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,4,4)": "106.771913772467", "=ODDFPRICE(\"11/11/2008\",\"03/01/2021\",\"10/15/2008\",\"03/01/2009\",7.85%,6.25%,100,2,1)": "113.597717474079", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"09/30/2017\",5.5%,3.5%,100,4,0)": "106.72930611878", "=ODDFPRICE(\"11/11/2008\",\"03/29/2021\", \"08/15/2008\", \"03/29/2009\", 0.0785, 0.0625, 100, 2, 1)": "113.61826640814", // PDURATION "=PDURATION(0.04,10000,15000)": "10.3380350715076", // PMT "=PMT(0,8,0,5000,1)": "-625", "=PMT(0.035/4,8,0,5000,1)": "-600.852027180466", // PRICE "=PRICE(\"04/01/2012\",\"02/01/2020\",12%,10%,100,2)": "110.655105178443", "=PRICE(\"04/01/2012\",\"02/01/2020\",12%,10%,100,2,4)": "110.655105178443", "=PRICE(\"04/01/2012\",\"03/31/2020\",12%,10%,100,2)": "110.834483593216", "=PRICE(\"01/01/2010\",\"06/30/2010\",0.5,1,1,1,4)": "8.92419088847661", // PPMT "=PPMT(0.05/12,2,60,50000)": "-738.291800320824", "=PPMT(0.035/4,2,8,0,5000,1)": "-606.109482418295", // PRICEDISC "=PRICEDISC(\"04/01/2017\",\"03/31/2021\",2.5%,100)": "90", "=PRICEDISC(\"04/01/2017\",\"03/31/2021\",2.5%,100,3)": "90", "=PRICEDISC(\"42826\",\"03/31/2021\",2.5%,100,3)": "90", // PRICEMAT "=PRICEMAT(\"04/01/2017\",\"03/31/2021\",\"01/01/2017\",4.5%,2.5%)": "107.170454545455", "=PRICEMAT(\"04/01/2017\",\"03/31/2021\",\"01/01/2017\",4.5%,2.5%,0)": "107.170454545455", // PV "=PV(0,60,1000)": "-60000", "=PV(5%/12,60,1000)": "-52990.7063239275", "=PV(10%/4,16,2000,0,1)": "-26762.7554528811", // RATE "=RATE(60,-1000,50000)": "0.0061834131621292", "=RATE(24,-800,0,20000,1)": "0.00325084350160374", "=RATE(48,-200,8000,3,1,0.5)": "0.0080412665831637", // RECEIVED "=RECEIVED(\"04/01/2011\",\"03/31/2016\",1000,4.5%)": "1290.32258064516", "=RECEIVED(\"04/01/2011\",\"03/31/2016\",1000,4.5%,0)": "1290.32258064516", // RRI "=RRI(10,10000,15000)": "0.0413797439924106", // SLN "=SLN(10000,1000,5)": "1800", // SYD "=SYD(10000,1000,5,1)": "3000", "=SYD(10000,1000,5,2)": "2400", // TBILLEQ "=TBILLEQ(\"01/01/2017\",\"06/30/2017\",2.5%)": "0.0256680731364276", // TBILLPRICE "=TBILLPRICE(\"02/01/2017\",\"06/30/2017\",2.75%)": "98.8618055555556", // TBILLYIELD "=TBILLYIELD(\"02/01/2017\",\"06/30/2017\",99)": "0.024405125076266", // VDB "=VDB(10000,1000,5,0,1)": "4000", "=VDB(10000,1000,5,1,3)": "3840", "=VDB(10000,1000,5,3,5)": "1160", "=VDB(10000,1000,5,3,5,0.2,FALSE)": "3600", "=VDB(10000,1000,5,3,5,0.2,TRUE)": "693.633024", "=VDB(24000,3000,10,0,0.875,2)": "4200", "=VDB(24000,3000,10,0.1,1)": "4233.6", "=VDB(24000,3000,10,0.1,1,1)": "2138.4", "=VDB(24000,3000,100,50,100,1)": "10377.2944184652", "=VDB(24000,3000,100,50,100,2)": "5740.0723220908", // YIELD "=YIELD(\"01/01/2010\",\"06/30/2015\",10%,101,100,4)": "0.0975631546829798", "=YIELD(\"01/01/2010\",\"06/30/2015\",10%,101,100,4,4)": "0.0976269355643988", "=YIELD(\"01/01/2010\",\"06/30/2010\",0.5,1,1,1,4)": "1.91285866099894", "=YIELD(\"01/01/2010\",\"06/30/2010\",0,1,1,1,4)": "0", "=YIELD(\"01/01/2010\",\"01/02/2020\",100,68.15518653988686,1,1,1)": "64", // YIELDDISC "=YIELDDISC(\"01/01/2017\",\"06/30/2017\",97,100)": "0.0622012325059031", "=YIELDDISC(\"01/01/2017\",\"06/30/2017\",97,100,0)": "0.0622012325059031", // YIELDMAT "=YIELDMAT(\"01/01/2017\",\"06/30/2018\",\"06/01/2014\",5.5%,101)": "0.0419422478838651", "=YIELDMAT(\"01/01/2017\",\"06/30/2018\",\"06/01/2014\",5.5%,101,0)": "0.0419422478838651", } for formula, expected := range mathCalc { f := prepareCalcData(cellData) assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } mathCalcError := map[string]string{ "=1/0": "#DIV/0!", "1^\"text\"": "strconv.ParseFloat: parsing \"text\": invalid syntax", "\"text\"^1": "strconv.ParseFloat: parsing \"text\": invalid syntax", "1+\"text\"": "strconv.ParseFloat: parsing \"text\": invalid syntax", "\"text\"+1": "strconv.ParseFloat: parsing \"text\": invalid syntax", "1-\"text\"": "strconv.ParseFloat: parsing \"text\": invalid syntax", "\"text\"-1": "strconv.ParseFloat: parsing \"text\": invalid syntax", "1*\"text\"": "strconv.ParseFloat: parsing \"text\": invalid syntax", "\"text\"*1": "strconv.ParseFloat: parsing \"text\": invalid syntax", "1/\"text\"": "strconv.ParseFloat: parsing \"text\": invalid syntax", "\"text\"/1": "strconv.ParseFloat: parsing \"text\": invalid syntax", // Engineering Functions // BESSELI "=BESSELI()": "BESSELI requires 2 numeric arguments", "=BESSELI(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BESSELI(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // BESSELJ "=BESSELJ()": "BESSELJ requires 2 numeric arguments", "=BESSELJ(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BESSELJ(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // BESSELK "=BESSELK()": "BESSELK requires 2 numeric arguments", "=BESSELK(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BESSELK(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BESSELK(-1,0)": "#NUM!", "=BESSELK(1,-1)": "#NUM!", // BESSELY "=BESSELY()": "BESSELY requires 2 numeric arguments", "=BESSELY(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BESSELY(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BESSELY(-1,0)": "#NUM!", "=BESSELY(1,-1)": "#NUM!", // BIN2DEC "=BIN2DEC()": "BIN2DEC requires 1 numeric argument", "=BIN2DEC(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // BIN2HEX "=BIN2HEX()": "BIN2HEX requires at least 1 argument", "=BIN2HEX(1,1,1)": "BIN2HEX allows at most 2 arguments", "=BIN2HEX(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BIN2HEX(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BIN2HEX(12345678901,10)": "#NUM!", "=BIN2HEX(1,-1)": "#NUM!", "=BIN2HEX(31,1)": "#NUM!", // BIN2OCT "=BIN2OCT()": "BIN2OCT requires at least 1 argument", "=BIN2OCT(1,1,1)": "BIN2OCT allows at most 2 arguments", "=BIN2OCT(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BIN2OCT(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BIN2OCT(-12345678901 ,10)": "#NUM!", "=BIN2OCT(1,-1)": "#NUM!", "=BIN2OCT(8,1)": "#NUM!", // BITAND "=BITAND()": "BITAND requires 2 numeric arguments", "=BITAND(-1,2)": "#NUM!", "=BITAND(2^48,2)": "#NUM!", "=BITAND(1,-1)": "#NUM!", "=BITAND(\"\",-1)": "#NUM!", "=BITAND(1,\"\")": "#NUM!", "=BITAND(1,2^48)": "#NUM!", // BITLSHIFT "=BITLSHIFT()": "BITLSHIFT requires 2 numeric arguments", "=BITLSHIFT(-1,2)": "#NUM!", "=BITLSHIFT(2^48,2)": "#NUM!", "=BITLSHIFT(1,-1)": "#NUM!", "=BITLSHIFT(\"\",-1)": "#NUM!", "=BITLSHIFT(1,\"\")": "#NUM!", "=BITLSHIFT(1,2^48)": "#NUM!", // BITOR "=BITOR()": "BITOR requires 2 numeric arguments", "=BITOR(-1,2)": "#NUM!", "=BITOR(2^48,2)": "#NUM!", "=BITOR(1,-1)": "#NUM!", "=BITOR(\"\",-1)": "#NUM!", "=BITOR(1,\"\")": "#NUM!", "=BITOR(1,2^48)": "#NUM!", // BITRSHIFT "=BITRSHIFT()": "BITRSHIFT requires 2 numeric arguments", "=BITRSHIFT(-1,2)": "#NUM!", "=BITRSHIFT(2^48,2)": "#NUM!", "=BITRSHIFT(1,-1)": "#NUM!", "=BITRSHIFT(\"\",-1)": "#NUM!", "=BITRSHIFT(1,\"\")": "#NUM!", "=BITRSHIFT(1,2^48)": "#NUM!", // BITXOR "=BITXOR()": "BITXOR requires 2 numeric arguments", "=BITXOR(-1,2)": "#NUM!", "=BITXOR(2^48,2)": "#NUM!", "=BITXOR(1,-1)": "#NUM!", "=BITXOR(\"\",-1)": "#NUM!", "=BITXOR(1,\"\")": "#NUM!", "=BITXOR(1,2^48)": "#NUM!", // COMPLEX "=COMPLEX()": "COMPLEX requires at least 2 arguments", "=COMPLEX(10,-5,\"\")": "#VALUE!", "=COMPLEX(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=COMPLEX(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=COMPLEX(10,-5,\"i\",0)": "COMPLEX allows at most 3 arguments", // CONVERT "=CONVERT()": "CONVERT requires 3 arguments", "=CONVERT(\"\",\"m\",\"yd\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CONVERT(20.2,\"m\",\"C\")": "#N/A", "=CONVERT(20.2,\"\",\"C\")": "#N/A", "=CONVERT(100,\"dapt\",\"pt\")": "#N/A", "=CONVERT(1,\"ft\",\"day\")": "#N/A", "=CONVERT(234.56,\"kpt\",\"lt\")": "#N/A", "=CONVERT(234.56,\"lt\",\"kpt\")": "#N/A", "=CONVERT(234.56,\"kiqt\",\"pt\")": "#N/A", "=CONVERT(234.56,\"pt\",\"kiqt\")": "#N/A", "=CONVERT(12345.6,\"baton\",\"cwt\")": "#N/A", "=CONVERT(12345.6,\"cwt\",\"baton\")": "#N/A", "=CONVERT(234.56,\"xxxx\",\"m\")": "#N/A", "=CONVERT(234.56,\"m\",\"xxxx\")": "#N/A", // DEC2BIN "=DEC2BIN()": "DEC2BIN requires at least 1 argument", "=DEC2BIN(1,1,1)": "DEC2BIN allows at most 2 arguments", "=DEC2BIN(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DEC2BIN(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DEC2BIN(-513,10)": "#NUM!", "=DEC2BIN(1,-1)": "#NUM!", "=DEC2BIN(2,1)": "#NUM!", // DEC2HEX "=DEC2HEX()": "DEC2HEX requires at least 1 argument", "=DEC2HEX(1,1,1)": "DEC2HEX allows at most 2 arguments", "=DEC2HEX(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DEC2HEX(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DEC2HEX(-549755813888,10)": "#NUM!", "=DEC2HEX(1,-1)": "#NUM!", "=DEC2HEX(31,1)": "#NUM!", // DEC2OCT "=DEC2OCT()": "DEC2OCT requires at least 1 argument", "=DEC2OCT(1,1,1)": "DEC2OCT allows at most 2 arguments", "=DEC2OCT(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DEC2OCT(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DEC2OCT(-536870912 ,10)": "#NUM!", "=DEC2OCT(1,-1)": "#NUM!", "=DEC2OCT(8,1)": "#NUM!", // DELTA "=DELTA()": "DELTA requires at least 1 argument", "=DELTA(0,0,0)": "DELTA allows at most 2 arguments", "=DELTA(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DELTA(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // ERF "=ERF()": "ERF requires at least 1 argument", "=ERF(0,0,0)": "ERF allows at most 2 arguments", "=ERF(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ERF(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // ERF.PRECISE "=ERF.PRECISE()": "ERF.PRECISE requires 1 argument", "=ERF.PRECISE(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // ERFC "=ERFC()": "ERFC requires 1 argument", "=ERFC(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // ERFC.PRECISE "=ERFC.PRECISE()": "ERFC.PRECISE requires 1 argument", "=ERFC.PRECISE(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // GESTEP "=GESTEP()": "GESTEP requires at least 1 argument", "=GESTEP(0,0,0)": "GESTEP allows at most 2 arguments", "=GESTEP(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GESTEP(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // HEX2BIN "=HEX2BIN()": "HEX2BIN requires at least 1 argument", "=HEX2BIN(1,1,1)": "HEX2BIN allows at most 2 arguments", "=HEX2BIN(\"X\",1)": "strconv.ParseInt: parsing \"X\": invalid syntax", "=HEX2BIN(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=HEX2BIN(-513,10)": "strconv.ParseInt: parsing \"-\": invalid syntax", "=HEX2BIN(1,-1)": "#NUM!", "=HEX2BIN(2,1)": "#NUM!", // HEX2DEC "=HEX2DEC()": "HEX2DEC requires 1 numeric argument", "=HEX2DEC(\"X\")": "strconv.ParseInt: parsing \"X\": invalid syntax", // HEX2OCT "=HEX2OCT()": "HEX2OCT requires at least 1 argument", "=HEX2OCT(1,1,1)": "HEX2OCT allows at most 2 arguments", "=HEX2OCT(\"X\",1)": "strconv.ParseInt: parsing \"X\": invalid syntax", "=HEX2OCT(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=HEX2OCT(-513,10)": "strconv.ParseInt: parsing \"-\": invalid syntax", "=HEX2OCT(1,-1)": "#NUM!", // IMABS "=IMABS()": "IMABS requires 1 argument", "=IMABS(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMAGINARY "=IMAGINARY()": "IMAGINARY requires 1 argument", "=IMAGINARY(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMARGUMENT "=IMARGUMENT()": "IMARGUMENT requires 1 argument", "=IMARGUMENT(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMCONJUGATE "=IMCONJUGATE()": "IMCONJUGATE requires 1 argument", "=IMCONJUGATE(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMCOS "=IMCOS()": "IMCOS requires 1 argument", "=IMCOS(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMCOSH "=IMCOSH()": "IMCOSH requires 1 argument", "=IMCOSH(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMCOT "=IMCOT()": "IMCOT requires 1 argument", "=IMCOT(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMCSC "=IMCSC()": "IMCSC requires 1 argument", "=IMCSC(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", "=IMCSC(0)": "#NUM!", // IMCSCH "=IMCSCH()": "IMCSCH requires 1 argument", "=IMCSCH(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", "=IMCSCH(0)": "#NUM!", // IMDIV "=IMDIV()": "IMDIV requires 2 arguments", "=IMDIV(0,\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", "=IMDIV(\"\",0)": "strconv.ParseComplex: parsing \"\": invalid syntax", "=IMDIV(1,0)": "#NUM!", // IMEXP "=IMEXP()": "IMEXP requires 1 argument", "=IMEXP(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMLN "=IMLN()": "IMLN requires 1 argument", "=IMLN(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", "=IMLN(0)": "#NUM!", // IMLOG10 "=IMLOG10()": "IMLOG10 requires 1 argument", "=IMLOG10(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", "=IMLOG10(0)": "#NUM!", // IMLOG2 "=IMLOG2()": "IMLOG2 requires 1 argument", "=IMLOG2(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", "=IMLOG2(0)": "#NUM!", // IMPOWER "=IMPOWER()": "IMPOWER requires 2 arguments", "=IMPOWER(0,\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", "=IMPOWER(\"\",0)": "strconv.ParseComplex: parsing \"\": invalid syntax", "=IMPOWER(0,0)": "#NUM!", "=IMPOWER(0,-1)": "#NUM!", // IMPRODUCT "=IMPRODUCT(\"x\")": "strconv.ParseComplex: parsing \"x\": invalid syntax", "=IMPRODUCT(A1:D1)": "strconv.ParseComplex: parsing \"Month\": invalid syntax", // IMREAL "=IMREAL()": "IMREAL requires 1 argument", "=IMREAL(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMSEC "=IMSEC()": "IMSEC requires 1 argument", "=IMSEC(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMSECH "=IMSECH()": "IMSECH requires 1 argument", "=IMSECH(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMSIN "=IMSIN()": "IMSIN requires 1 argument", "=IMSIN(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMSINH "=IMSINH()": "IMSINH requires 1 argument", "=IMSINH(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMSQRT "=IMSQRT()": "IMSQRT requires 1 argument", "=IMSQRT(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMSUB "=IMSUB()": "IMSUB requires 2 arguments", "=IMSUB(0,\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", "=IMSUB(\"\",0)": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMSUM "=IMSUM()": "IMSUM requires at least 1 argument", "=IMSUM(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // IMTAN "=IMTAN()": "IMTAN requires 1 argument", "=IMTAN(\"\")": "strconv.ParseComplex: parsing \"\": invalid syntax", // OCT2BIN "=OCT2BIN()": "OCT2BIN requires at least 1 argument", "=OCT2BIN(1,1,1)": "OCT2BIN allows at most 2 arguments", "=OCT2BIN(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=OCT2BIN(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=OCT2BIN(-536870912 ,10)": "#NUM!", "=OCT2BIN(1,-1)": "#NUM!", // OCT2DEC "=OCT2DEC()": "OCT2DEC requires 1 numeric argument", "=OCT2DEC(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // OCT2HEX "=OCT2HEX()": "OCT2HEX requires at least 1 argument", "=OCT2HEX(1,1,1)": "OCT2HEX allows at most 2 arguments", "=OCT2HEX(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=OCT2HEX(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=OCT2HEX(-536870912 ,10)": "#NUM!", "=OCT2HEX(1,-1)": "#NUM!", // Math and Trigonometric Functions // ABS "=ABS()": "ABS requires 1 numeric argument", `=ABS("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=ABS(~)": newInvalidColumnNameError("~").Error(), // ACOS "=ACOS()": "ACOS requires 1 numeric argument", `=ACOS("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=ACOS(ACOS(0))": "#NUM!", // ACOSH "=ACOSH()": "ACOSH requires 1 numeric argument", `=ACOSH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // _xlfn.ACOT "=_xlfn.ACOT()": "ACOT requires 1 numeric argument", `=_xlfn.ACOT("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // _xlfn.ACOTH "=_xlfn.ACOTH()": "ACOTH requires 1 numeric argument", `=_xlfn.ACOTH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=_xlfn.ACOTH(_xlfn.ACOTH(2))": "#NUM!", // _xlfn.AGGREGATE "=_xlfn.AGGREGATE()": "AGGREGATE requires at least 3 arguments", "=_xlfn.AGGREGATE(\"\",0,A4:A5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=_xlfn.AGGREGATE(1,\"\",A4:A5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=_xlfn.AGGREGATE(0,A4:A5)": "AGGREGATE has invalid function_num", "=_xlfn.AGGREGATE(1,8,A4:A5)": "AGGREGATE has invalid options", "=_xlfn.AGGREGATE(1,0,A5:A6)": "#DIV/0!", "=_xlfn.AGGREGATE(13,0,A1:A6)": "#N/A", "=_xlfn.AGGREGATE(18,0,A1:A6,1)": "#NUM!", // _xlfn.ARABIC "=_xlfn.ARABIC()": "ARABIC requires 1 numeric argument", "=_xlfn.ARABIC(\"" + strings.Repeat("I", 256) + "\")": "#VALUE!", // ASIN "=ASIN()": "ASIN requires 1 numeric argument", `=ASIN("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // ASINH "=ASINH()": "ASINH requires 1 numeric argument", `=ASINH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // ATAN "=ATAN()": "ATAN requires 1 numeric argument", `=ATAN("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // ATANH "=ATANH()": "ATANH requires 1 numeric argument", `=ATANH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // ATAN2 "=ATAN2()": "ATAN2 requires 2 numeric arguments", `=ATAN2("X",0)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=ATAN2(0,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // BASE "=BASE()": "BASE requires at least 2 arguments", "=BASE(1,2,3,4)": "BASE allows at most 3 arguments", "=BASE(1,1)": "radix must be an integer >= 2 and <= 36", `=BASE("X",2)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=BASE(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=BASE(1,2,"X")`: "strconv.Atoi: parsing \"X\": invalid syntax", // CEILING "=CEILING()": "CEILING requires at least 1 argument", "=CEILING(1,2,3)": "CEILING allows at most 2 arguments", "=CEILING(1,-1)": "negative sig to CEILING invalid", `=CEILING("X",0)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=CEILING(0,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // _xlfn.CEILING.MATH "=_xlfn.CEILING.MATH()": "CEILING.MATH requires at least 1 argument", "=_xlfn.CEILING.MATH(1,2,3,4)": "CEILING.MATH allows at most 3 arguments", `=_xlfn.CEILING.MATH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=_xlfn.CEILING.MATH(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=_xlfn.CEILING.MATH(1,2,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // _xlfn.CEILING.PRECISE "=_xlfn.CEILING.PRECISE()": "CEILING.PRECISE requires at least 1 argument", "=_xlfn.CEILING.PRECISE(1,2,3)": "CEILING.PRECISE allows at most 2 arguments", `=_xlfn.CEILING.PRECISE("X",2)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=_xlfn.CEILING.PRECISE(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // COMBIN "=COMBIN()": "COMBIN requires 2 argument", "=COMBIN(-1,1)": "COMBIN requires number >= number_chosen", `=COMBIN("X",1)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=COMBIN(-1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // _xlfn.COMBINA "=_xlfn.COMBINA()": "COMBINA requires 2 argument", "=_xlfn.COMBINA(-1,1)": "COMBINA requires number > number_chosen", "=_xlfn.COMBINA(-1,-1)": "COMBIN requires number >= number_chosen", `=_xlfn.COMBINA("X",1)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=_xlfn.COMBINA(-1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // COS "=COS()": "COS requires 1 numeric argument", `=COS("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // COSH "=COSH()": "COSH requires 1 numeric argument", `=COSH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // _xlfn.COT "=COT()": "COT requires 1 numeric argument", `=COT("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=COT(0)": "#DIV/0!", // _xlfn.COTH "=COTH()": "COTH requires 1 numeric argument", `=COTH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=COTH(0)": "#DIV/0!", // _xlfn.CSC "=_xlfn.CSC()": "CSC requires 1 numeric argument", `=_xlfn.CSC("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=_xlfn.CSC(0)": "#DIV/0!", // _xlfn.CSCH "=_xlfn.CSCH()": "CSCH requires 1 numeric argument", `=_xlfn.CSCH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=_xlfn.CSCH(0)": "#DIV/0!", // _xlfn.DECIMAL "=_xlfn.DECIMAL()": "DECIMAL requires 2 numeric arguments", `=_xlfn.DECIMAL("X", 2)`: "strconv.ParseInt: parsing \"X\": invalid syntax", `=_xlfn.DECIMAL(2000, "X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // DEGREES "=DEGREES()": "DEGREES requires 1 numeric argument", `=DEGREES("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=DEGREES(0)": "#DIV/0!", // EVEN "=EVEN()": "EVEN requires 1 numeric argument", `=EVEN("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // EXP "=EXP()": "EXP requires 1 numeric argument", `=EXP("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // FACT "=FACT()": "FACT requires 1 numeric argument", `=FACT("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=FACT(-1)": "#NUM!", // FACTDOUBLE "=FACTDOUBLE()": "FACTDOUBLE requires 1 numeric argument", `=FACTDOUBLE("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=FACTDOUBLE(-1)": "#NUM!", // FLOOR "=FLOOR()": "FLOOR requires 2 numeric arguments", `=FLOOR("X",-1)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=FLOOR(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=FLOOR(1,-1)": "invalid arguments to FLOOR", // _xlfn.FLOOR.MATH "=_xlfn.FLOOR.MATH()": "FLOOR.MATH requires at least 1 argument", "=_xlfn.FLOOR.MATH(1,2,3,4)": "FLOOR.MATH allows at most 3 arguments", `=_xlfn.FLOOR.MATH("X",2,3)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=_xlfn.FLOOR.MATH(1,"X",3)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=_xlfn.FLOOR.MATH(1,2,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // _xlfn.FLOOR.PRECISE "=_xlfn.FLOOR.PRECISE()": "FLOOR.PRECISE requires at least 1 argument", "=_xlfn.FLOOR.PRECISE(1,2,3)": "FLOOR.PRECISE allows at most 2 arguments", `=_xlfn.FLOOR.PRECISE("X",2)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=_xlfn.FLOOR.PRECISE(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // GCD "=GCD()": "GCD requires at least 1 argument", "=GCD(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GCD(-1)": "GCD only accepts positive arguments", "=GCD(1,-1)": "GCD only accepts positive arguments", `=GCD("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // INT "=INT()": "INT requires 1 numeric argument", `=INT("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // ISO.CEILING "=ISO.CEILING()": "ISO.CEILING requires at least 1 argument", "=ISO.CEILING(1,2,3)": "ISO.CEILING allows at most 2 arguments", `=ISO.CEILING("X",2)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=ISO.CEILING(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // LCM "=LCM()": "LCM requires at least 1 argument", "=LCM(-1)": "LCM only accepts positive arguments", "=LCM(1,-1)": "LCM only accepts positive arguments", `=LCM("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // LN "=LN()": "LN requires 1 numeric argument", `=LN("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // LOG "=LOG()": "LOG requires at least 1 argument", "=LOG(1,2,3)": "LOG allows at most 2 arguments", `=LOG("X",1)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=LOG(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=LOG(0,0)": "#DIV/0!", "=LOG(1,0)": "#DIV/0!", "=LOG(1,1)": "#DIV/0!", // LOG10 "=LOG10()": "LOG10 requires 1 numeric argument", `=LOG10("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // MDETERM "=MDETERM()": "MDETERM requires 1 argument", // MINVERSE "=MINVERSE()": "MINVERSE requires 1 argument", "=MINVERSE(B3:C4)": "#VALUE!", "=MINVERSE(A1:C2)": "#VALUE!", "=MINVERSE(A4:A4)": "#NUM!", // MMULT "=MMULT()": "MMULT requires 2 argument", "=MMULT(A1:B2,B3:C4)": "#VALUE!", "=MMULT(B3:C4,A1:B2)": "#VALUE!", "=MMULT(A1:A2,B1:B2)": "#VALUE!", // MOD "=MOD()": "MOD requires 2 numeric arguments", "=MOD(6,0)": "MOD divide by zero", `=MOD("X",0)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=MOD(6,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // MROUND "=MROUND()": "MROUND requires 2 numeric arguments", "=MROUND(1,0)": "#NUM!", "=MROUND(1,-1)": "#NUM!", `=MROUND("X",0)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=MROUND(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // MULTINOMIAL `=MULTINOMIAL("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // _xlfn.MUNIT "=_xlfn.MUNIT()": "MUNIT requires 1 numeric argument", `=_xlfn.MUNIT("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=_xlfn.MUNIT(-1)": "", // ODD "=ODD()": "ODD requires 1 numeric argument", `=ODD("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // PI "=PI(1)": "PI accepts no arguments", // POWER `=POWER("X",1)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=POWER(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=POWER(0,0)": "#NUM!", "=POWER(0,-1)": "#DIV/0!", "=POWER(1)": "POWER requires 2 numeric arguments", // PRODUCT "=PRODUCT(\"X\")": "strconv.ParseFloat: parsing \"X\": invalid syntax", "=PRODUCT(\"\",3,6)": "strconv.ParseFloat: parsing \"\": invalid syntax", // QUOTIENT `=QUOTIENT("X",1)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=QUOTIENT(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=QUOTIENT(1,0)": "#DIV/0!", "=QUOTIENT(1)": "QUOTIENT requires 2 numeric arguments", // RADIANS `=RADIANS("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=RADIANS()": "RADIANS requires 1 numeric argument", // RAND "=RAND(1)": "RAND accepts no arguments", // RANDBETWEEN `=RANDBETWEEN("X",1)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=RANDBETWEEN(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=RANDBETWEEN()": "RANDBETWEEN requires 2 numeric arguments", "=RANDBETWEEN(2,1)": "#NUM!", // ROMAN "=ROMAN()": "ROMAN requires at least 1 argument", "=ROMAN(1,2,3)": "ROMAN allows at most 2 arguments", "=ROMAN(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ROMAN(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ROMAN(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", // ROUND "=ROUND()": "ROUND requires 2 numeric arguments", `=ROUND("X",1)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=ROUND(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // ROUNDDOWN "=ROUNDDOWN()": "ROUNDDOWN requires 2 numeric arguments", `=ROUNDDOWN("X",1)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=ROUNDDOWN(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // ROUNDUP "=ROUNDUP()": "ROUNDUP requires 2 numeric arguments", `=ROUNDUP("X",1)`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=ROUNDUP(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // SEC "=_xlfn.SEC()": "SEC requires 1 numeric argument", `=_xlfn.SEC("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // _xlfn.SECH "=_xlfn.SECH()": "SECH requires 1 numeric argument", `=_xlfn.SECH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // SERIESSUM "=SERIESSUM()": "SERIESSUM requires 4 arguments", "=SERIESSUM(\"\",2,3,A1:A4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=SERIESSUM(1,\"\",3,A1:A4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=SERIESSUM(1,2,\"\",A1:A4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=SERIESSUM(1,2,3,A1:D1)": "strconv.ParseFloat: parsing \"Month\": invalid syntax", // SIGN "=SIGN()": "SIGN requires 1 numeric argument", `=SIGN("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // SIN "=SIN()": "SIN requires 1 numeric argument", `=SIN("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // SINH "=SINH()": "SINH requires 1 numeric argument", `=SINH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // SQRT "=SQRT()": "SQRT requires 1 numeric argument", `=SQRT("")`: "strconv.ParseFloat: parsing \"\": invalid syntax", `=SQRT("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=SQRT(-1)": "#NUM!", // SQRTPI "=SQRTPI()": "SQRTPI requires 1 numeric argument", `=SQRTPI("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // STDEV "=STDEV()": "STDEV requires at least 1 argument", "=STDEV(E2:E9)": "#DIV/0!", // STDEV.S "=STDEV.S()": "STDEV.S requires at least 1 argument", // STDEVA "=STDEVA()": "STDEVA requires at least 1 argument", "=STDEVA(E2:E9)": "#DIV/0!", // POISSON.DIST "=POISSON.DIST()": "POISSON.DIST requires 3 arguments", // POISSON "=POISSON()": "POISSON requires 3 arguments", "=POISSON(\"\",0,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=POISSON(0,\"\",FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=POISSON(0,0,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=POISSON(0,-1,TRUE)": "#N/A", // SUBTOTAL "=SUBTOTAL()": "SUBTOTAL requires at least 2 arguments", "=SUBTOTAL(\"\",A4:A5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=SUBTOTAL(0,A4:A5)": "SUBTOTAL has invalid function_num", "=SUBTOTAL(1,A5:A6)": "#DIV/0!", // SUM "=SUM((": ErrInvalidFormula.Error(), "=SUM(-)": ErrInvalidFormula.Error(), "=SUM(1+)": ErrInvalidFormula.Error(), "=SUM(1-)": ErrInvalidFormula.Error(), "=SUM(1*)": ErrInvalidFormula.Error(), "=SUM(1/)": ErrInvalidFormula.Error(), "=SUM(1*SUM(1/0))": "#DIV/0!", "=SUM(1*SUM(1/0)*1)": "#DIV/0!", // SUMIF "=SUMIF()": "SUMIF requires at least 2 arguments", // SUMSQ `=SUMSQ("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", "=SUMSQ(C1:D2)": "strconv.ParseFloat: parsing \"Month\": invalid syntax", // SUMPRODUCT "=SUMPRODUCT()": "SUMPRODUCT requires at least 1 argument", "=SUMPRODUCT(A1,B1:B2)": "#VALUE!", "=SUMPRODUCT(A1,D1)": "#VALUE!", "=SUMPRODUCT(A1:A3,D1:D3)": "#VALUE!", "=SUMPRODUCT(A1:A2,B1:B3)": "#VALUE!", "=SUMPRODUCT(\"\")": "#VALUE!", "=SUMPRODUCT(A1,NA())": "#N/A", // SUMX2MY2 "=SUMX2MY2()": "SUMX2MY2 requires 2 arguments", "=SUMX2MY2(A1,B1:B2)": "#N/A", // SUMX2PY2 "=SUMX2PY2()": "SUMX2PY2 requires 2 arguments", "=SUMX2PY2(A1,B1:B2)": "#N/A", // SUMXMY2 "=SUMXMY2()": "SUMXMY2 requires 2 arguments", "=SUMXMY2(A1,B1:B2)": "#N/A", // TAN "=TAN()": "TAN requires 1 numeric argument", `=TAN("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // TANH "=TANH()": "TANH requires 1 numeric argument", `=TANH("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // TRUNC "=TRUNC()": "TRUNC requires at least 1 argument", `=TRUNC("X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", `=TRUNC(1,"X")`: "strconv.ParseFloat: parsing \"X\": invalid syntax", // Statistical Functions // AVEDEV "=AVEDEV()": "AVEDEV requires at least 1 argument", "=AVEDEV(\"\")": "#VALUE!", "=AVEDEV(1,\"\")": "#VALUE!", // AVERAGE "=AVERAGE(H1)": "#DIV/0!", // AVERAGEA "=AVERAGEA(H1)": "#DIV/0!", // AVERAGEIF "=AVERAGEIF()": "AVERAGEIF requires at least 2 arguments", "=AVERAGEIF(H1,\"\")": "#DIV/0!", "=AVERAGEIF(D1:D3,\"Month\",D1:D3)": "#DIV/0!", "=AVERAGEIF(C1:C3,\"Month\",D1:D3)": "#DIV/0!", // BETA.DIST "=BETA.DIST()": "BETA.DIST requires at least 4 arguments", "=BETA.DIST(0.4,4,5,TRUE,0,1,0)": "BETA.DIST requires at most 6 arguments", "=BETA.DIST(\"\",4,5,TRUE,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETA.DIST(0.4,\"\",5,TRUE,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETA.DIST(0.4,4,\"\",TRUE,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETA.DIST(0.4,4,5,\"\",0,1)": "strconv.ParseBool: parsing \"\": invalid syntax", "=BETA.DIST(0.4,4,5,TRUE,\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETA.DIST(0.4,4,5,TRUE,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETA.DIST(0.4,0,5,TRUE,0,1)": "#NUM!", "=BETA.DIST(0.4,4,0,TRUE,0,0)": "#NUM!", "=BETA.DIST(0.4,4,5,TRUE,0.5,1)": "#NUM!", "=BETA.DIST(0.4,4,5,TRUE,0,0.3)": "#NUM!", "=BETA.DIST(0.4,4,5,TRUE,0.4,0.4)": "#NUM!", // BETADIST "=BETADIST()": "BETADIST requires at least 3 arguments", "=BETADIST(0.4,4,5,0,1,0)": "BETADIST requires at most 5 arguments", "=BETADIST(\"\",4,5,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETADIST(0.4,\"\",5,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETADIST(0.4,4,\"\",0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETADIST(0.4,4,5,\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETADIST(0.4,4,5,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETADIST(2,4,5,3,1)": "#NUM!", "=BETADIST(2,4,5,0,1)": "#NUM!", "=BETADIST(0.4,0,5,0,1)": "#NUM!", "=BETADIST(0.4,4,0,0,1)": "#NUM!", "=BETADIST(0.4,4,5,0.4,0.4)": "#NUM!", // BETAINV "=BETAINV()": "BETAINV requires at least 3 arguments", "=BETAINV(0.2,4,5,0,1,0)": "BETAINV requires at most 5 arguments", "=BETAINV(\"\",4,5,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETAINV(0.2,\"\",5,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETAINV(0.2,4,\"\",0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETAINV(0.2,4,5,\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETAINV(0.2,4,5,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETAINV(0,4,5,0,1)": "#NUM!", "=BETAINV(1,4,5,0,1)": "#NUM!", "=BETAINV(0.2,0,5,0,1)": "#NUM!", "=BETAINV(0.2,4,0,0,1)": "#NUM!", "=BETAINV(0.2,4,5,2,2)": "#NUM!", // BETA.INV "=BETA.INV()": "BETA.INV requires at least 3 arguments", "=BETA.INV(0.2,4,5,0,1,0)": "BETA.INV requires at most 5 arguments", "=BETA.INV(\"\",4,5,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETA.INV(0.2,\"\",5,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETA.INV(0.2,4,\"\",0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETA.INV(0.2,4,5,\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETA.INV(0.2,4,5,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BETA.INV(0,4,5,0,1)": "#NUM!", "=BETA.INV(1,4,5,0,1)": "#NUM!", "=BETA.INV(0.2,0,5,0,1)": "#NUM!", "=BETA.INV(0.2,4,0,0,1)": "#NUM!", "=BETA.INV(0.2,4,5,2,2)": "#NUM!", // BINOMDIST "=BINOMDIST()": "BINOMDIST requires 4 arguments", "=BINOMDIST(\"\",100,0.5,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOMDIST(10,\"\",0.5,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOMDIST(10,100,\"\",FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOMDIST(10,100,0.5,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=BINOMDIST(-1,100,0.5,FALSE)": "#NUM!", "=BINOMDIST(110,100,0.5,FALSE)": "#NUM!", "=BINOMDIST(10,100,-1,FALSE)": "#NUM!", "=BINOMDIST(10,100,2,FALSE)": "#NUM!", // BINOM.DIST "=BINOM.DIST()": "BINOM.DIST requires 4 arguments", "=BINOM.DIST(\"\",100,0.5,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOM.DIST(10,\"\",0.5,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOM.DIST(10,100,\"\",FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOM.DIST(10,100,0.5,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=BINOM.DIST(-1,100,0.5,FALSE)": "#NUM!", "=BINOM.DIST(110,100,0.5,FALSE)": "#NUM!", "=BINOM.DIST(10,100,-1,FALSE)": "#NUM!", "=BINOM.DIST(10,100,2,FALSE)": "#NUM!", // BINOM.DIST.RANGE "=BINOM.DIST.RANGE()": "BINOM.DIST.RANGE requires at least 3 arguments", "=BINOM.DIST.RANGE(100,0.5,0,40,0)": "BINOM.DIST.RANGE requires at most 4 arguments", "=BINOM.DIST.RANGE(\"\",0.5,0,40)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOM.DIST.RANGE(100,\"\",0,40)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOM.DIST.RANGE(100,0.5,\"\",40)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOM.DIST.RANGE(100,0.5,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOM.DIST.RANGE(100,-1,0,40)": "#NUM!", "=BINOM.DIST.RANGE(100,2,0,40)": "#NUM!", "=BINOM.DIST.RANGE(100,0.5,-1,40)": "#NUM!", "=BINOM.DIST.RANGE(100,0.5,110,40)": "#NUM!", "=BINOM.DIST.RANGE(100,0.5,0,-1)": "#NUM!", "=BINOM.DIST.RANGE(100,0.5,0,110)": "#NUM!", // BINOM.INV "=BINOM.INV()": "BINOM.INV requires 3 numeric arguments", "=BINOM.INV(\"\",0.5,20%)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOM.INV(100,\"\",20%)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOM.INV(100,0.5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=BINOM.INV(-1,0.5,20%)": "#NUM!", "=BINOM.INV(100,-1,20%)": "#NUM!", "=BINOM.INV(100,2,20%)": "#NUM!", "=BINOM.INV(100,0.5,-1)": "#NUM!", "=BINOM.INV(100,0.5,2)": "#NUM!", "=BINOM.INV(1,1,20%)": "#NUM!", // CHIDIST "=CHIDIST()": "CHIDIST requires 2 numeric arguments", "=CHIDIST(\"\",3)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CHIDIST(0.5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // CHIINV "=CHIINV()": "CHIINV requires 2 numeric arguments", "=CHIINV(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CHIINV(0.5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CHIINV(0,1)": "#NUM!", "=CHIINV(2,1)": "#NUM!", "=CHIINV(0.5,0.5)": "#NUM!", // CHISQ.DIST "=CHISQ.DIST()": "CHISQ.DIST requires 3 arguments", "=CHISQ.DIST(\"\",2,TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CHISQ.DIST(3,\"\",TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CHISQ.DIST(3,2,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=CHISQ.DIST(-1,2,TRUE)": "#NUM!", "=CHISQ.DIST(3,0,TRUE)": "#NUM!", // CHISQ.DIST.RT "=CHISQ.DIST.RT()": "CHISQ.DIST.RT requires 2 numeric arguments", "=CHISQ.DIST.RT(\"\",3)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CHISQ.DIST.RT(0.5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // CHISQ.INV "=CHISQ.INV()": "CHISQ.INV requires 2 numeric arguments", "=CHISQ.INV(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CHISQ.INV(0.5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CHISQ.INV(-1,1)": "#NUM!", "=CHISQ.INV(1,1)": "#NUM!", "=CHISQ.INV(0.5,0.5)": "#NUM!", "=CHISQ.INV(0.5,10000000001)": "#NUM!", // CHISQ.INV.RT "=CHISQ.INV.RT()": "CHISQ.INV.RT requires 2 numeric arguments", "=CHISQ.INV.RT(\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CHISQ.INV.RT(0.5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CHISQ.INV.RT(0,1)": "#NUM!", "=CHISQ.INV.RT(2,1)": "#NUM!", "=CHISQ.INV.RT(0.5,0.5)": "#NUM!", // CONFIDENCE "=CONFIDENCE()": "CONFIDENCE requires 3 numeric arguments", "=CONFIDENCE(\"\",0.07,100)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CONFIDENCE(0.05,\"\",100)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CONFIDENCE(0.05,0.07,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CONFIDENCE(0,0.07,100)": "#NUM!", "=CONFIDENCE(1,0.07,100)": "#NUM!", "=CONFIDENCE(0.05,0,100)": "#NUM!", "=CONFIDENCE(0.05,0.07,0.5)": "#NUM!", // CONFIDENCE.NORM "=CONFIDENCE.NORM()": "CONFIDENCE.NORM requires 3 numeric arguments", "=CONFIDENCE.NORM(\"\",0.07,100)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CONFIDENCE.NORM(0.05,\"\",100)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CONFIDENCE.NORM(0.05,0.07,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CONFIDENCE.NORM(0,0.07,100)": "#NUM!", "=CONFIDENCE.NORM(1,0.07,100)": "#NUM!", "=CONFIDENCE.NORM(0.05,0,100)": "#NUM!", "=CONFIDENCE.NORM(0.05,0.07,0.5)": "#NUM!", // CORREL "=CORREL()": "CORREL requires 2 arguments", "=CORREL(A1:A3,B1:B5)": "#N/A", "=CORREL(A1:A1,B1:B1)": "#DIV/0!", // CONFIDENCE.T "=CONFIDENCE.T()": "CONFIDENCE.T requires 3 arguments", "=CONFIDENCE.T(\"\",0.07,100)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CONFIDENCE.T(0.05,\"\",100)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CONFIDENCE.T(0.05,0.07,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CONFIDENCE.T(0,0.07,100)": "#NUM!", "=CONFIDENCE.T(1,0.07,100)": "#NUM!", "=CONFIDENCE.T(0.05,0,100)": "#NUM!", "=CONFIDENCE.T(0.05,0.07,0)": "#NUM!", "=CONFIDENCE.T(0.05,0.07,1)": "#DIV/0!", // COUNTBLANK "=COUNTBLANK()": "COUNTBLANK requires 1 argument", "=COUNTBLANK(1,2)": "COUNTBLANK requires 1 argument", // COUNTIF "=COUNTIF()": "COUNTIF requires 2 arguments", // COUNTIFS "=COUNTIFS()": "COUNTIFS requires at least 2 arguments", "=COUNTIFS(A1:A9,2,D1:D9)": "#N/A", // CRITBINOM "=CRITBINOM()": "CRITBINOM requires 3 numeric arguments", "=CRITBINOM(\"\",0.5,20%)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CRITBINOM(100,\"\",20%)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CRITBINOM(100,0.5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CRITBINOM(-1,0.5,20%)": "#NUM!", "=CRITBINOM(100,-1,20%)": "#NUM!", "=CRITBINOM(100,2,20%)": "#NUM!", "=CRITBINOM(100,0.5,-1)": "#NUM!", "=CRITBINOM(100,0.5,2)": "#NUM!", "=CRITBINOM(1,1,20%)": "#NUM!", // DEVSQ "=DEVSQ()": "DEVSQ requires at least 1 numeric argument", "=DEVSQ(D1:D2)": "#N/A", // FISHER "=FISHER()": "FISHER requires 1 numeric argument", "=FISHER(2)": "#N/A", "=FISHER(\"2\")": "#N/A", "=FISHER(INT(-2)))": "#N/A", "=FISHER(F1)": "FISHER requires 1 numeric argument", // FISHERINV "=FISHERINV()": "FISHERINV requires 1 numeric argument", "=FISHERINV(F1)": "FISHERINV requires 1 numeric argument", // GAMMA "=GAMMA()": "GAMMA requires 1 numeric argument", "=GAMMA(F1)": "GAMMA requires 1 numeric argument", "=GAMMA(0)": "#N/A", "=GAMMA(\"0\")": "#N/A", "=GAMMA(INT(0))": "#N/A", // GAMMA.DIST "=GAMMA.DIST()": "GAMMA.DIST requires 4 arguments", "=GAMMA.DIST(\"\",3,2,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMA.DIST(6,\"\",2,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMA.DIST(6,3,\"\",FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMA.DIST(6,3,2,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=GAMMA.DIST(-1,3,2,FALSE)": "#NUM!", "=GAMMA.DIST(6,0,2,FALSE)": "#NUM!", "=GAMMA.DIST(6,3,0,FALSE)": "#NUM!", // GAMMADIST "=GAMMADIST()": "GAMMADIST requires 4 arguments", "=GAMMADIST(\"\",3,2,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMADIST(6,\"\",2,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMADIST(6,3,\"\",FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMADIST(6,3,2,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=GAMMADIST(-1,3,2,FALSE)": "#NUM!", "=GAMMADIST(6,0,2,FALSE)": "#NUM!", "=GAMMADIST(6,3,0,FALSE)": "#NUM!", // GAMMA.INV "=GAMMA.INV()": "GAMMA.INV requires 3 arguments", "=GAMMA.INV(\"\",3,2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMA.INV(0.5,\"\",2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMA.INV(0.5,3,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMA.INV(-1,3,2)": "#NUM!", "=GAMMA.INV(2,3,2)": "#NUM!", "=GAMMA.INV(0.5,0,2)": "#NUM!", "=GAMMA.INV(0.5,3,0)": "#NUM!", // GAMMAINV "=GAMMAINV()": "GAMMAINV requires 3 arguments", "=GAMMAINV(\"\",3,2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMAINV(0.5,\"\",2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMAINV(0.5,3,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMAINV(-1,3,2)": "#NUM!", "=GAMMAINV(2,3,2)": "#NUM!", "=GAMMAINV(0.5,0,2)": "#NUM!", "=GAMMAINV(0.5,3,0)": "#NUM!", // GAMMALN "=GAMMALN()": "GAMMALN requires 1 numeric argument", "=GAMMALN(F1)": "GAMMALN requires 1 numeric argument", "=GAMMALN(0)": "#N/A", "=GAMMALN(INT(0))": "#N/A", // GAMMALN.PRECISE "=GAMMALN.PRECISE()": "GAMMALN.PRECISE requires 1 numeric argument", "=GAMMALN.PRECISE(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=GAMMALN.PRECISE(0)": "#NUM!", // GAUSS "=GAUSS()": "GAUSS requires 1 numeric argument", "=GAUSS(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // GEOMEAN "=GEOMEAN()": "GEOMEAN requires at least 1 numeric argument", "=GEOMEAN(0)": "#NUM!", "=GEOMEAN(D1:D2)": "#NUM!", "=GEOMEAN(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // HARMEAN "=HARMEAN()": "HARMEAN requires at least 1 argument", "=HARMEAN(-1)": "#N/A", "=HARMEAN(0)": "#N/A", // HYPGEOM.DIST "=HYPGEOM.DIST()": "HYPGEOM.DIST requires 5 arguments", "=HYPGEOM.DIST(\"\",4,4,12,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=HYPGEOM.DIST(1,\"\",4,12,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=HYPGEOM.DIST(1,4,\"\",12,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=HYPGEOM.DIST(1,4,4,\"\",FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=HYPGEOM.DIST(1,4,4,12,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=HYPGEOM.DIST(-1,4,4,12,FALSE)": "#NUM!", "=HYPGEOM.DIST(2,1,4,12,FALSE)": "#NUM!", "=HYPGEOM.DIST(2,4,1,12,FALSE)": "#NUM!", "=HYPGEOM.DIST(2,2,2,1,FALSE)": "#NUM!", "=HYPGEOM.DIST(1,0,4,12,FALSE)": "#NUM!", "=HYPGEOM.DIST(1,4,4,2,FALSE)": "#NUM!", "=HYPGEOM.DIST(1,4,0,12,FALSE)": "#NUM!", "=HYPGEOM.DIST(1,4,4,0,FALSE)": "#NUM!", // HYPGEOMDIST "=HYPGEOMDIST()": "HYPGEOMDIST requires 4 numeric arguments", "=HYPGEOMDIST(\"\",4,4,12)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=HYPGEOMDIST(1,\"\",4,12)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=HYPGEOMDIST(1,4,\"\",12)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=HYPGEOMDIST(1,4,4,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=HYPGEOMDIST(-1,4,4,12)": "#NUM!", "=HYPGEOMDIST(2,1,4,12)": "#NUM!", "=HYPGEOMDIST(2,4,1,12)": "#NUM!", "=HYPGEOMDIST(2,2,2,1)": "#NUM!", "=HYPGEOMDIST(1,0,4,12)": "#NUM!", "=HYPGEOMDIST(1,4,4,2)": "#NUM!", "=HYPGEOMDIST(1,4,0,12)": "#NUM!", "=HYPGEOMDIST(1,4,4,0)": "#NUM!", // KURT "=KURT()": "KURT requires at least 1 argument", "=KURT(F1,INT(1))": "#DIV/0!", // EXPON.DIST "=EXPON.DIST()": "EXPON.DIST requires 3 arguments", "=EXPON.DIST(\"\",1,TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=EXPON.DIST(0,\"\",TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=EXPON.DIST(0,1,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=EXPON.DIST(-1,1,TRUE)": "#NUM!", "=EXPON.DIST(1,0,TRUE)": "#NUM!", // EXPONDIST "=EXPONDIST()": "EXPONDIST requires 3 arguments", "=EXPONDIST(\"\",1,TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=EXPONDIST(0,\"\",TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=EXPONDIST(0,1,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=EXPONDIST(-1,1,TRUE)": "#NUM!", "=EXPONDIST(1,0,TRUE)": "#NUM!", // FDIST "=FDIST()": "FDIST requires 3 arguments", "=FDIST(\"\",1,2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FDIST(5,\"\",2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FDIST(5,1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FDIST(-1,1,2)": "#NUM!", "=FDIST(5,0,2)": "#NUM!", "=FDIST(5,10000000000,2)": "#NUM!", "=FDIST(5,1,0)": "#NUM!", "=FDIST(5,1,10000000000)": "#NUM!", // F.DIST "=F.DIST()": "F.DIST requires 4 arguments", "=F.DIST(\"\",2,5,TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.DIST(1,\"\",5,TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.DIST(1,2,\"\",TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.DIST(1,2,5,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=F.DIST(-1,1,2,TRUE)": "#NUM!", "=F.DIST(5,0,2,TRUE)": "#NUM!", "=F.DIST(5,10000000000,2,TRUE)": "#NUM!", "=F.DIST(5,1,0,TRUE)": "#NUM!", "=F.DIST(5,1,10000000000,TRUE)": "#NUM!", // F.DIST.RT "=F.DIST.RT()": "F.DIST.RT requires 3 arguments", "=F.DIST.RT(\"\",1,2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.DIST.RT(5,\"\",2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.DIST.RT(5,1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.DIST.RT(-1,1,2)": "#NUM!", "=F.DIST.RT(5,0,2)": "#NUM!", "=F.DIST.RT(5,10000000000,2)": "#NUM!", "=F.DIST.RT(5,1,0)": "#NUM!", "=F.DIST.RT(5,1,10000000000)": "#NUM!", // F.INV "=F.INV()": "F.INV requires 3 arguments", "=F.INV(\"\",1,2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.INV(0.2,\"\",2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.INV(0.2,1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.INV(0,1,2)": "#NUM!", "=F.INV(0.2,0.5,2)": "#NUM!", "=F.INV(0.2,1,0.5)": "#NUM!", // FINV "=FINV()": "FINV requires 3 arguments", "=FINV(\"\",1,2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FINV(0.2,\"\",2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FINV(0.2,1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FINV(0,1,2)": "#NUM!", "=FINV(0.2,0.5,2)": "#NUM!", "=FINV(0.2,1,0.5)": "#NUM!", // F.INV.RT "=F.INV.RT()": "F.INV.RT requires 3 arguments", "=F.INV.RT(\"\",1,2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.INV.RT(0.2,\"\",2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.INV.RT(0.2,1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=F.INV.RT(0,1,2)": "#NUM!", "=F.INV.RT(0.2,0.5,2)": "#NUM!", "=F.INV.RT(0.2,1,0.5)": "#NUM!", // LOGINV "=LOGINV()": "LOGINV requires 3 arguments", "=LOGINV(\"\",2,0.2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGINV(0.3,\"\",0.2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGINV(0.3,2,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGINV(0,2,0.2)": "#NUM!", "=LOGINV(1,2,0.2)": "#NUM!", "=LOGINV(0.3,2,0)": "#NUM!", // LOGNORM.INV "=LOGNORM.INV()": "LOGNORM.INV requires 3 arguments", "=LOGNORM.INV(\"\",2,0.2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGNORM.INV(0.3,\"\",0.2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGNORM.INV(0.3,2,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGNORM.INV(0,2,0.2)": "#NUM!", "=LOGNORM.INV(1,2,0.2)": "#NUM!", "=LOGNORM.INV(0.3,2,0)": "#NUM!", // LOGNORM.DIST "=LOGNORM.DIST()": "LOGNORM.DIST requires 4 arguments", "=LOGNORM.DIST(\"\",10,5,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGNORM.DIST(0.5,\"\",5,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGNORM.DIST(0.5,10,\"\",FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGNORM.DIST(0.5,10,5,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=LOGNORM.DIST(0,10,5,FALSE)": "#NUM!", "=LOGNORM.DIST(0.5,10,0,FALSE)": "#NUM!", // LOGNORMDIST "=LOGNORMDIST()": "LOGNORMDIST requires 3 arguments", "=LOGNORMDIST(\"\",10,5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGNORMDIST(12,\"\",5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGNORMDIST(12,10,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LOGNORMDIST(0,2,5)": "#NUM!", "=LOGNORMDIST(12,10,0)": "#NUM!", // NEGBINOM.DIST "=NEGBINOM.DIST()": "NEGBINOM.DIST requires 4 arguments", "=NEGBINOM.DIST(\"\",12,0.5,TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NEGBINOM.DIST(6,\"\",0.5,TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NEGBINOM.DIST(6,12,\"\",TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NEGBINOM.DIST(6,12,0.5,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=NEGBINOM.DIST(-1,12,0.5,TRUE)": "#NUM!", "=NEGBINOM.DIST(6,0,0.5,TRUE)": "#NUM!", "=NEGBINOM.DIST(6,12,-1,TRUE)": "#NUM!", "=NEGBINOM.DIST(6,12,2,TRUE)": "#NUM!", // NEGBINOMDIST "=NEGBINOMDIST()": "NEGBINOMDIST requires 3 arguments", "=NEGBINOMDIST(\"\",12,0.5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NEGBINOMDIST(6,\"\",0.5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NEGBINOMDIST(6,12,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NEGBINOMDIST(-1,12,0.5)": "#NUM!", "=NEGBINOMDIST(6,0,0.5)": "#NUM!", "=NEGBINOMDIST(6,12,-1)": "#NUM!", "=NEGBINOMDIST(6,12,2)": "#NUM!", // NORM.DIST "=NORM.DIST()": "NORM.DIST requires 4 arguments", // NORMDIST "=NORMDIST()": "NORMDIST requires 4 arguments", "=NORMDIST(\"\",0,0,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NORMDIST(0,\"\",0,FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NORMDIST(0,0,\"\",FALSE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NORMDIST(0,0,0,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=NORMDIST(0,0,-1,TRUE)": "#N/A", // NORM.INV "=NORM.INV()": "NORM.INV requires 3 arguments", // NORMINV "=NORMINV()": "NORMINV requires 3 arguments", "=NORMINV(\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NORMINV(0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NORMINV(0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NORMINV(0,0,-1)": "#N/A", "=NORMINV(-1,0,0)": "#N/A", "=NORMINV(0,0,0)": "#NUM!", // NORM.S.DIST "=NORM.S.DIST()": "NORM.S.DIST requires 2 numeric arguments", // NORMSDIST "=NORMSDIST()": "NORMSDIST requires 1 numeric argument", // NORM.S.INV "=NORM.S.INV()": "NORM.S.INV requires 1 numeric argument", // NORMSINV "=NORMSINV()": "NORMSINV requires 1 numeric argument", // LARGE "=LARGE()": "LARGE requires 2 arguments", "=LARGE(A1:A5,0)": "k should be > 0", "=LARGE(A1:A5,6)": "k should be <= length of array", "=LARGE(A1:A5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // MAX "=MAX()": "MAX requires at least 1 argument", "=MAX(NA())": "#N/A", // MAXA "=MAXA()": "MAXA requires at least 1 argument", "=MAXA(NA())": "#N/A", // MAXIFS "=MAXIFS()": "MAXIFS requires at least 3 arguments", "=MAXIFS(F2:F4,A2:A4,\">0\",D2:D9)": "#N/A", // MEDIAN "=MEDIAN()": "MEDIAN requires at least 1 argument", "=MEDIAN(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=MEDIAN(D1:D2)": "#NUM!", // MIN "=MIN()": "MIN requires at least 1 argument", "=MIN(NA())": "#N/A", // MINA "=MINA()": "MINA requires at least 1 argument", "=MINA(NA())": "#N/A", // MINIFS "=MINIFS()": "MINIFS requires at least 3 arguments", "=MINIFS(F2:F4,A2:A4,\"<0\",D2:D9)": "#N/A", // PEARSON "=PEARSON()": "PEARSON requires 2 arguments", "=PEARSON(A1:A2,B1:B1)": "#N/A", "=PEARSON(A4,A4)": "#DIV/0!", // PERCENTILE.EXC "=PERCENTILE.EXC()": "PERCENTILE.EXC requires 2 arguments", "=PERCENTILE.EXC(A1:A4,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERCENTILE.EXC(A1:A4,-1)": "#NUM!", "=PERCENTILE.EXC(A1:A4,0)": "#NUM!", "=PERCENTILE.EXC(A1:A4,1)": "#NUM!", "=PERCENTILE.EXC(NA(),0.5)": "#NUM!", // PERCENTILE.INC "=PERCENTILE.INC()": "PERCENTILE.INC requires 2 arguments", // PERCENTILE "=PERCENTILE()": "PERCENTILE requires 2 arguments", "=PERCENTILE(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERCENTILE(0,-1)": "#N/A", "=PERCENTILE(NA(),1)": "#N/A", // PERCENTRANK.EXC "=PERCENTRANK.EXC()": "PERCENTRANK.EXC requires 2 or 3 arguments", "=PERCENTRANK.EXC(A1:B4,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERCENTRANK.EXC(A1:B4,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERCENTRANK.EXC(A1:B4,0,0)": "PERCENTRANK.EXC arguments significance should be > 1", "=PERCENTRANK.EXC(A1:B4,6)": "#N/A", "=PERCENTRANK.EXC(NA(),1)": "#N/A", // PERCENTRANK.INC "=PERCENTRANK.INC()": "PERCENTRANK.INC requires 2 or 3 arguments", "=PERCENTRANK.INC(A1:B4,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERCENTRANK.INC(A1:B4,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERCENTRANK.INC(A1:B4,0,0)": "PERCENTRANK.INC arguments significance should be > 1", "=PERCENTRANK.INC(A1:B4,6)": "#N/A", "=PERCENTRANK.INC(NA(),1)": "#N/A", // PERCENTRANK "=PERCENTRANK()": "PERCENTRANK requires 2 or 3 arguments", "=PERCENTRANK(A1:B4,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERCENTRANK(A1:B4,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERCENTRANK(A1:B4,0,0)": "PERCENTRANK arguments significance should be > 1", "=PERCENTRANK(A1:B4,6)": "#N/A", "=PERCENTRANK(NA(),1)": "#N/A", // PERMUT "=PERMUT()": "PERMUT requires 2 numeric arguments", "=PERMUT(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERMUT(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERMUT(6,8)": "#N/A", // PERMUTATIONA "=PERMUTATIONA()": "PERMUTATIONA requires 2 numeric arguments", "=PERMUTATIONA(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERMUTATIONA(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PERMUTATIONA(-1,0)": "#N/A", "=PERMUTATIONA(0,-1)": "#N/A", // PHI "=PHI()": "PHI requires 1 argument", "=PHI(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // QUARTILE "=QUARTILE()": "QUARTILE requires 2 arguments", "=QUARTILE(A1:A4,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=QUARTILE(A1:A4,-1)": "#NUM!", "=QUARTILE(A1:A4,5)": "#NUM!", // QUARTILE.EXC "=QUARTILE.EXC()": "QUARTILE.EXC requires 2 arguments", "=QUARTILE.EXC(A1:A4,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=QUARTILE.EXC(A1:A4,0)": "#NUM!", "=QUARTILE.EXC(A1:A4,4)": "#NUM!", // QUARTILE.INC "=QUARTILE.INC()": "QUARTILE.INC requires 2 arguments", // RANK "=RANK()": "RANK requires at least 2 arguments", "=RANK(1,A1:B5,0,0)": "RANK requires at most 3 arguments", "=RANK(-1,A1:B5)": "#N/A", "=RANK(\"\",A1:B5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RANK(1,A1:B5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // RANK.EQ "=RANK.EQ()": "RANK.EQ requires at least 2 arguments", "=RANK.EQ(1,A1:B5,0,0)": "RANK.EQ requires at most 3 arguments", "=RANK.EQ(-1,A1:B5)": "#N/A", "=RANK.EQ(\"\",A1:B5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RANK.EQ(1,A1:B5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // RSQ "=RSQ()": "RSQ requires 2 arguments", "=RSQ(A1:A2,B1:B1)": "#N/A", "=RSQ(A4,A4)": "#DIV/0!", // SKEW "=SKEW()": "SKEW requires at least 1 argument", "=SKEW(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=SKEW(0)": "#DIV/0!", // SKEW.P "=SKEW.P()": "SKEW.P requires at least 1 argument", "=SKEW.P(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=SKEW.P(0)": "#DIV/0!", // SLOPE "=SLOPE()": "SLOPE requires 2 arguments", "=SLOPE(A1:A2,B1:B1)": "#N/A", "=SLOPE(A4,A4)": "#DIV/0!", // SMALL "=SMALL()": "SMALL requires 2 arguments", "=SMALL(A1:A5,0)": "k should be > 0", "=SMALL(A1:A5,6)": "k should be <= length of array", "=SMALL(A1:A5,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // STANDARDIZE "=STANDARDIZE()": "STANDARDIZE requires 3 arguments", "=STANDARDIZE(\"\",0,5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=STANDARDIZE(0,\"\",5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=STANDARDIZE(0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=STANDARDIZE(0,0,0)": "#N/A", // STDEVP "=STDEVP()": "STDEVP requires at least 1 argument", "=STDEVP(\"\")": "#DIV/0!", // STDEV.P "=STDEV.P()": "STDEV.P requires at least 1 argument", "=STDEV.P(\"\")": "#DIV/0!", // STDEVPA "=STDEVPA()": "STDEVPA requires at least 1 argument", "=STDEVPA(\"\")": "#DIV/0!", // T.DIST "=T.DIST()": "T.DIST requires 3 arguments", "=T.DIST(\"\",10,TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=T.DIST(1,\"\",TRUE)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=T.DIST(1,10,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=T.DIST(1,0,TRUE)": "#NUM!", "=T.DIST(1,-1,FALSE)": "#NUM!", "=T.DIST(1,0,FALSE)": "#DIV/0!", // T.DIST.2T "=T.DIST.2T()": "T.DIST.2T requires 2 arguments", "=T.DIST.2T(\"\",10)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=T.DIST.2T(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=T.DIST.2T(-1,10)": "#NUM!", "=T.DIST.2T(1,0)": "#NUM!", // T.DIST.RT "=T.DIST.RT()": "T.DIST.RT requires 2 arguments", "=T.DIST.RT(\"\",10)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=T.DIST.RT(1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=T.DIST.RT(1,0)": "#NUM!", // TDIST "=TDIST()": "TDIST requires 3 arguments", "=TDIST(\"\",10,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=TDIST(1,\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=TDIST(1,10,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=TDIST(-1,10,1)": "#NUM!", "=TDIST(1,0,1)": "#NUM!", "=TDIST(1,10,0)": "#NUM!", // T.INV "=T.INV()": "T.INV requires 2 arguments", "=T.INV(\"\",10)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=T.INV(0.25,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=T.INV(0,10)": "#NUM!", "=T.INV(1,10)": "#NUM!", "=T.INV(0.25,0.5)": "#NUM!", // T.INV.2T "=T.INV.2T()": "T.INV.2T requires 2 arguments", "=T.INV.2T(\"\",10)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=T.INV.2T(0.25,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=T.INV.2T(0,10)": "#NUM!", "=T.INV.2T(0.25,0.5)": "#NUM!", // TINV "=TINV()": "TINV requires 2 arguments", "=TINV(\"\",10)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=TINV(0.25,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=TINV(0,10)": "#NUM!", "=TINV(0.25,0.5)": "#NUM!", // TRIMMEAN "=TRIMMEAN()": "TRIMMEAN requires 2 arguments", "=TRIMMEAN(A1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=TRIMMEAN(A1,1)": "#NUM!", "=TRIMMEAN(A1,-1)": "#NUM!", // VAR "=VAR()": "VAR requires at least 1 argument", // VARA "=VARA()": "VARA requires at least 1 argument", // VARP "=VARP()": "VARP requires at least 1 argument", "=VARP(\"\")": "#DIV/0!", // VAR.P "=VAR.P()": "VAR.P requires at least 1 argument", "=VAR.P(\"\")": "#DIV/0!", // VAR.S "=VAR.S()": "VAR.S requires at least 1 argument", // VARPA "=VARPA()": "VARPA requires at least 1 argument", // WEIBULL "=WEIBULL()": "WEIBULL requires 4 arguments", "=WEIBULL(\"\",1,1,FALSE)": "#VALUE!", "=WEIBULL(1,0,1,FALSE)": "#N/A", "=WEIBULL(1,1,-1,FALSE)": "#N/A", // WEIBULL.DIST "=WEIBULL.DIST()": "WEIBULL.DIST requires 4 arguments", "=WEIBULL.DIST(\"\",1,1,FALSE)": "#VALUE!", "=WEIBULL.DIST(1,0,1,FALSE)": "#N/A", "=WEIBULL.DIST(1,1,-1,FALSE)": "#N/A", // Z.TEST "=Z.TEST(A1)": "Z.TEST requires at least 2 arguments", "=Z.TEST(A1,0,0,0)": "Z.TEST accepts at most 3 arguments", "=Z.TEST(H1,0)": "#N/A", "=Z.TEST(A1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=Z.TEST(A1,1)": "#DIV/0!", "=Z.TEST(A1,1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // ZTEST "=ZTEST(A1)": "ZTEST requires at least 2 arguments", "=ZTEST(A1,0,0,0)": "ZTEST accepts at most 3 arguments", "=ZTEST(H1,0)": "#N/A", "=ZTEST(A1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ZTEST(A1,1)": "#DIV/0!", "=ZTEST(A1,1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // Information Functions // ERROR.TYPE "=ERROR.TYPE()": "ERROR.TYPE requires 1 argument", "=ERROR.TYPE(1)": "#N/A", // ISBLANK "=ISBLANK(A1,A2)": "ISBLANK requires 1 argument", // ISERR "=ISERR()": "ISERR requires 1 argument", // ISERROR "=ISERROR()": "ISERROR requires 1 argument", // ISEVEN "=ISEVEN()": "ISEVEN requires 1 argument", "=ISEVEN(\"text\")": "#VALUE!", "=ISEVEN(A1:A2)": "#VALUE!", // ISFORMULA "=ISFORMULA()": "ISFORMULA requires 1 argument", // ISLOGICAL "=ISLOGICAL()": "ISLOGICAL requires 1 argument", // ISNA "=ISNA()": "ISNA requires 1 argument", // ISNONTEXT "=ISNONTEXT()": "ISNONTEXT requires 1 argument", // ISNUMBER "=ISNUMBER()": "ISNUMBER requires 1 argument", // ISODD "=ISODD()": "ISODD requires 1 argument", "=ISODD(\"text\")": "#VALUE!", // ISREF "=ISREF()": "ISREF requires 1 argument", // ISTEXT "=ISTEXT()": "ISTEXT requires 1 argument", // N "=N()": "N requires 1 argument", "=N(NA())": "#N/A", // NA "=NA()": "#N/A", "=NA(1)": "NA accepts no arguments", // SHEET "=SHEET(\"\",\"\")": "SHEET accepts at most 1 argument", "=SHEET(\"Sheet2\")": "#N/A", // SHEETS "=SHEETS(\"\",\"\")": "SHEETS accepts at most 1 argument", "=SHEETS(\"Sheet1\")": "#N/A", // TYPE "=TYPE()": "TYPE requires 1 argument", // T "=T()": "T requires 1 argument", "=T(NA())": "#N/A", // Logical Functions // AND "=AND(\"text\")": "#VALUE!", "=AND(A1:B1)": "#VALUE!", "=AND(\"1\",\"TRUE\",\"FALSE\")": "#VALUE!", "=AND()": "AND requires at least 1 argument", "=AND(1" + strings.Repeat(",1", 30) + ")": "AND accepts at most 30 arguments", // FALSE "=FALSE(A1)": "FALSE takes no arguments", // IFERROR "=IFERROR()": "IFERROR requires 2 arguments", // IFNA "=IFNA()": "IFNA requires 2 arguments", // IFS "=IFS()": "IFS requires at least 2 arguments", "=IFS(FALSE,FALSE)": "#N/A", // NOT "=NOT()": "NOT requires 1 argument", "=NOT(NOT())": "NOT requires 1 argument", "=NOT(\"\")": "NOT expects 1 boolean or numeric argument", // OR "=OR(\"text\")": "#VALUE!", "=OR(A1:B1)": "#VALUE!", "=OR(\"1\",\"TRUE\",\"FALSE\")": "#VALUE!", "=OR()": "OR requires at least 1 argument", "=OR(1" + strings.Repeat(",1", 30) + ")": "OR accepts at most 30 arguments", // SWITCH "=SWITCH()": "SWITCH requires at least 3 arguments", "=SWITCH(0,1,2)": "#N/A", // TRUE "=TRUE(A1)": "TRUE takes no arguments", // XOR "=XOR()": "XOR requires at least 1 argument", "=XOR(\"1\")": "#VALUE!", "=XOR(\"text\")": "#VALUE!", "=XOR(XOR(\"text\"))": "#VALUE!", // Date and Time Functions // DATE "=DATE()": "DATE requires 3 number arguments", `=DATE("text",10,21)`: "DATE requires 3 number arguments", `=DATE(2020,"text",21)`: "DATE requires 3 number arguments", `=DATE(2020,10,"text")`: "DATE requires 3 number arguments", // DATEDIF "=DATEDIF()": "DATEDIF requires 3 number arguments", "=DATEDIF(\"\",\"\",\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DATEDIF(43891,43101,\"Y\")": "start_date > end_date", "=DATEDIF(43101,43891,\"x\")": "DATEDIF has invalid unit", // DATEVALUE "=DATEVALUE()": "DATEVALUE requires 1 argument", "=DATEVALUE(\"01/01\")": "#VALUE!", // valid in Excel, which uses years by the system date "=DATEVALUE(\"1900-0-0\")": "#VALUE!", // DAY "=DAY()": "DAY requires exactly 1 argument", "=DAY(-1)": "DAY only accepts positive argument", "=DAY(0,0)": "DAY requires exactly 1 argument", "=DAY(\"text\")": "#VALUE!", "=DAY(\"January 25, 2020 9223372036854775808 AM\")": "#VALUE!", "=DAY(\"January 25, 2020 9223372036854775808:00 AM\")": "#VALUE!", "=DAY(\"January 25, 2020 00:9223372036854775808 AM\")": "#VALUE!", "=DAY(\"January 25, 2020 9223372036854775808:00.0 AM\")": "#VALUE!", "=DAY(\"January 25, 2020 0:1" + strings.Repeat("0", 309) + ".0 AM\")": "#VALUE!", "=DAY(\"January 25, 2020 9223372036854775808:00:00 AM\")": "#VALUE!", "=DAY(\"January 25, 2020 0:9223372036854775808:0 AM\")": "#VALUE!", "=DAY(\"January 25, 2020 0:0:1" + strings.Repeat("0", 309) + " AM\")": "#VALUE!", "=DAY(\"January 25, 2020 0:61:0 AM\")": "#VALUE!", "=DAY(\"January 25, 2020 0:00:60 AM\")": "#VALUE!", "=DAY(\"January 25, 2020 24:00:00\")": "#VALUE!", "=DAY(\"January 25, 2020 00:00:10001\")": "#VALUE!", "=DAY(\"9223372036854775808/25/2020\")": "#VALUE!", "=DAY(\"01/9223372036854775808/2020\")": "#VALUE!", "=DAY(\"01/25/9223372036854775808\")": "#VALUE!", "=DAY(\"01/25/10000\")": "#VALUE!", "=DAY(\"01/25/100\")": "#VALUE!", "=DAY(\"January 9223372036854775808, 2020\")": "#VALUE!", "=DAY(\"January 25, 9223372036854775808\")": "#VALUE!", "=DAY(\"January 25, 10000\")": "#VALUE!", "=DAY(\"January 25, 100\")": "#VALUE!", "=DAY(\"9223372036854775808-25-2020\")": "#VALUE!", "=DAY(\"01-9223372036854775808-2020\")": "#VALUE!", "=DAY(\"01-25-9223372036854775808\")": "#VALUE!", "=DAY(\"1900-0-0\")": "#VALUE!", "=DAY(\"14-25-1900\")": "#VALUE!", "=DAY(\"3-January-9223372036854775808\")": "#VALUE!", "=DAY(\"9223372036854775808-January-1900\")": "#VALUE!", "=DAY(\"0-January-1900\")": "#VALUE!", // DAYS "=DAYS()": "DAYS requires 2 arguments", "=DAYS(\"\",0)": "#VALUE!", "=DAYS(0,\"\")": "#VALUE!", "=DAYS(NA(),0)": "#VALUE!", "=DAYS(0,NA())": "#VALUE!", // DAYS360 "=DAYS360(\"12/12/1999\")": "DAYS360 requires at least 2 arguments", "=DAYS360(\"12/12/1999\", \"11/30/1999\",TRUE,\"\")": "DAYS360 requires at most 3 arguments", "=DAYS360(\"12/12/1999\", \"11/30/1999\",\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=DAYS360(\"12/12/1999\", \"\")": "#VALUE!", "=DAYS360(\"\", \"11/30/1999\")": "#VALUE!", // EDATE "=EDATE()": "EDATE requires 2 arguments", "=EDATE(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=EDATE(-1,0)": "#NUM!", "=EDATE(\"\",0)": "#VALUE!", "=EDATE(\"January 25, 100\",0)": "#VALUE!", // EOMONTH "=EOMONTH()": "EOMONTH requires 2 arguments", "=EOMONTH(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=EOMONTH(-1,0)": "#NUM!", "=EOMONTH(\"\",0)": "#VALUE!", "=EOMONTH(\"January 25, 100\",0)": "#VALUE!", // HOUR "=HOUR()": "HOUR requires exactly 1 argument", "=HOUR(-1)": "HOUR only accepts positive argument", "=HOUR(\"\")": "#VALUE!", "=HOUR(\"25:10:55\")": "#VALUE!", // ISOWEEKNUM "=ISOWEEKNUM()": "ISOWEEKNUM requires 1 argument", "=ISOWEEKNUM(\"\")": "#VALUE!", "=ISOWEEKNUM(\"January 25, 100\")": "#VALUE!", "=ISOWEEKNUM(-1)": "#NUM!", // MINUTE "=MINUTE()": "MINUTE requires exactly 1 argument", "=MINUTE(-1)": "MINUTE only accepts positive argument", "=MINUTE(\"\")": "#VALUE!", "=MINUTE(\"13:60:55\")": "#VALUE!", // MONTH "=MONTH()": "MONTH requires exactly 1 argument", "=MONTH(0,0)": "MONTH requires exactly 1 argument", "=MONTH(-1)": "MONTH only accepts positive argument", "=MONTH(\"text\")": "#VALUE!", "=MONTH(\"January 25, 100\")": "#VALUE!", // YEAR "=YEAR()": "YEAR requires exactly 1 argument", "=YEAR(0,0)": "YEAR requires exactly 1 argument", "=YEAR(-1)": "YEAR only accepts positive argument", "=YEAR(\"text\")": "#VALUE!", "=YEAR(\"January 25, 100\")": "#VALUE!", // YEARFRAC "=YEARFRAC()": "YEARFRAC requires 3 or 4 arguments", "=YEARFRAC(42005,42094,5)": "invalid basis", "=YEARFRAC(\"\",42094,5)": "#VALUE!", "=YEARFRAC(42005,\"\",5)": "#VALUE!", "=YEARFRAC(42005,42094,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // NOW "=NOW(A1)": "NOW accepts no arguments", // SECOND "=SECOND()": "SECOND requires exactly 1 argument", "=SECOND(-1)": "SECOND only accepts positive argument", "=SECOND(\"\")": "#VALUE!", "=SECOND(\"25:55\")": "#VALUE!", // TIME "=TIME()": "TIME requires 3 number arguments", "=TIME(\"\",0,0)": "TIME requires 3 number arguments", "=TIME(0,0,-1)": "#NUM!", // TIMEVALUE "=TIMEVALUE()": "TIMEVALUE requires exactly 1 argument", "=TIMEVALUE(1)": "#VALUE!", "=TIMEVALUE(-1)": "#VALUE!", "=TIMEVALUE(\"25:55\")": "#VALUE!", // TODAY "=TODAY(A1)": "TODAY accepts no arguments", // WEEKDAY "=WEEKDAY()": "WEEKDAY requires at least 1 argument", "=WEEKDAY(0,1,0)": "WEEKDAY allows at most 2 arguments", "=WEEKDAY(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=WEEKDAY(\"\",1)": "#VALUE!", "=WEEKDAY(0,0)": "#VALUE!", "=WEEKDAY(\"January 25, 100\")": "#VALUE!", "=WEEKDAY(-1,1)": "#NUM!", // WEEKNUM "=WEEKNUM()": "WEEKNUM requires at least 1 argument", "=WEEKNUM(0,1,0)": "WEEKNUM allows at most 2 arguments", "=WEEKNUM(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=WEEKNUM(\"\",1)": "#VALUE!", "=WEEKNUM(\"January 25, 100\")": "#VALUE!", "=WEEKNUM(0,0)": "#NUM!", "=WEEKNUM(-1,1)": "#NUM!", // Text Functions // CHAR "=CHAR()": "CHAR requires 1 argument", "=CHAR(-1)": "#VALUE!", "=CHAR(256)": "#VALUE!", "=CHAR(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // CLEAN "=CLEAN()": "CLEAN requires 1 argument", "=CLEAN(1,2)": "CLEAN requires 1 argument", // CODE "=CODE()": "CODE requires 1 argument", "=CODE(1,2)": "CODE requires 1 argument", // CONCAT "=CONCAT(MUNIT(2))": "CONCAT requires arguments to be strings", // CONCATENATE "=CONCATENATE(MUNIT(2))": "CONCATENATE requires arguments to be strings", // EXACT "=EXACT()": "EXACT requires 2 arguments", "=EXACT(1,2,3)": "EXACT requires 2 arguments", // FIXED "=FIXED()": "FIXED requires at least 1 argument", "=FIXED(0,1,2,3)": "FIXED allows at most 3 arguments", "=FIXED(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FIXED(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FIXED(0,0,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", // FIND "=FIND()": "FIND requires at least 2 arguments", "=FIND(1,2,3,4)": "FIND allows at most 3 arguments", "=FIND(\"x\",\"\")": "#VALUE!", "=FIND(\"x\",\"x\",-1)": "#VALUE!", "=FIND(\"x\",\"x\",\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // FINDB "=FINDB()": "FINDB requires at least 2 arguments", "=FINDB(1,2,3,4)": "FINDB allows at most 3 arguments", "=FINDB(\"x\",\"\")": "#VALUE!", "=FINDB(\"x\",\"x\",-1)": "#VALUE!", "=FINDB(\"x\",\"x\",\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // LEFT "=LEFT()": "LEFT requires at least 1 argument", "=LEFT(\"\",2,3)": "LEFT allows at most 2 arguments", "=LEFT(\"\",\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LEFT(\"\",-1)": "#VALUE!", // LEFTB "=LEFTB()": "LEFTB requires at least 1 argument", "=LEFTB(\"\",2,3)": "LEFTB allows at most 2 arguments", "=LEFTB(\"\",\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=LEFTB(\"\",-1)": "#VALUE!", // LEN "=LEN()": "LEN requires 1 string argument", // LENB "=LENB()": "LENB requires 1 string argument", // LOWER "=LOWER()": "LOWER requires 1 argument", "=LOWER(1,2)": "LOWER requires 1 argument", // MID "=MID()": "MID requires 3 arguments", "=MID(\"\",-1,1)": "#VALUE!", "=MID(\"\",\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=MID(\"\",1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // MIDB "=MIDB()": "MIDB requires 3 arguments", "=MIDB(\"\",-1,1)": "#VALUE!", "=MIDB(\"\",\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=MIDB(\"\",1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // PROPER "=PROPER()": "PROPER requires 1 argument", "=PROPER(1,2)": "PROPER requires 1 argument", // REPLACE "=REPLACE()": "REPLACE requires 4 arguments", "=REPLACE(\"text\",0,4,\"string\")": "#VALUE!", "=REPLACE(\"text\",\"\",0,\"string\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=REPLACE(\"text\",1,\"\",\"string\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // REPLACEB "=REPLACEB()": "REPLACEB requires 4 arguments", "=REPLACEB(\"text\",0,4,\"string\")": "#VALUE!", "=REPLACEB(\"text\",\"\",0,\"string\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=REPLACEB(\"text\",1,\"\",\"string\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // REPT "=REPT()": "REPT requires 2 arguments", "=REPT(INT(0),2)": "REPT requires first argument to be a string", "=REPT(\"*\",\"*\")": "REPT requires second argument to be a number", "=REPT(\"*\",-1)": "REPT requires second argument to be >= 0", // RIGHT "=RIGHT()": "RIGHT requires at least 1 argument", "=RIGHT(\"\",2,3)": "RIGHT allows at most 2 arguments", "=RIGHT(\"\",\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RIGHT(\"\",-1)": "#VALUE!", // RIGHTB "=RIGHTB()": "RIGHTB requires at least 1 argument", "=RIGHTB(\"\",2,3)": "RIGHTB allows at most 2 arguments", "=RIGHTB(\"\",\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RIGHTB(\"\",-1)": "#VALUE!", // SUBSTITUTE "=SUBSTITUTE()": "SUBSTITUTE requires 3 or 4 arguments", "=SUBSTITUTE(\"\",\"\",\"\",\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=SUBSTITUTE(\"\",\"\",\"\",0)": "instance_num should be > 0", // TEXTJOIN "=TEXTJOIN()": "TEXTJOIN requires at least 3 arguments", "=TEXTJOIN(\"\",\"\",1)": "#VALUE!", "=TEXTJOIN(\"\",TRUE,NA())": "#N/A", "=TEXTJOIN(\"\",TRUE," + strings.Repeat("0,", 250) + ",0)": "TEXTJOIN accepts at most 252 arguments", "=TEXTJOIN(\",\",FALSE,REPT(\"*\",32768))": "TEXTJOIN function exceeds 32767 characters", // TRIM "=TRIM()": "TRIM requires 1 argument", "=TRIM(1,2)": "TRIM requires 1 argument", // UNICHAR "=UNICHAR()": "UNICHAR requires 1 argument", "=UNICHAR(\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=UNICHAR(55296)": "#VALUE!", "=UNICHAR(0)": "#VALUE!", // UNICODE "=UNICODE()": "UNICODE requires 1 argument", "=UNICODE(\"\")": "#VALUE!", // VALUE "=VALUE()": "VALUE requires 1 argument", "=VALUE(\"\")": "#VALUE!", // UPPER "=UPPER()": "UPPER requires 1 argument", "=UPPER(1,2)": "UPPER requires 1 argument", // Conditional Functions // IF "=IF()": "IF requires at least 1 argument", "=IF(0,1,2,3)": "IF accepts at most 3 arguments", "=IF(D1,1,2)": "strconv.ParseBool: parsing \"Month\": invalid syntax", // Excel Lookup and Reference Functions // ADDRESS "=ADDRESS()": "ADDRESS requires at least 2 arguments", "=ADDRESS(1,1,1,TRUE,\"Sheet1\",0)": "ADDRESS requires at most 5 arguments", "=ADDRESS(\"\",1,1,TRUE)": "#VALUE!", "=ADDRESS(1,\"\",1,TRUE)": "#VALUE!", "=ADDRESS(1,1,\"\",TRUE)": "#VALUE!", "=ADDRESS(1,1,1,\"\")": "#VALUE!", "=ADDRESS(1,1,0,TRUE)": "#NUM!", "=ADDRESS(1,16385,2,TRUE)": "#VALUE!", "=ADDRESS(1,16385,3,TRUE)": "#VALUE!", "=ADDRESS(1048576,1,1,TRUE)": "#VALUE!", // CHOOSE "=CHOOSE()": "CHOOSE requires 2 arguments", "=CHOOSE(\"index_num\",0)": "CHOOSE requires first argument of type number", "=CHOOSE(2,0)": "index_num should be <= to the number of values", "=CHOOSE(1,NA())": "#N/A", // COLUMN "=COLUMN(1,2)": "COLUMN requires at most 1 argument", "=COLUMN(\"\")": "invalid reference", "=COLUMN(Sheet1)": newInvalidColumnNameError("Sheet1").Error(), "=COLUMN(Sheet1!A1!B1)": newInvalidColumnNameError("Sheet1").Error(), // COLUMNS "=COLUMNS()": "COLUMNS requires 1 argument", "=COLUMNS(1)": "invalid reference", "=COLUMNS(\"\")": "invalid reference", "=COLUMNS(Sheet1)": newInvalidColumnNameError("Sheet1").Error(), "=COLUMNS(Sheet1!A1!B1)": newInvalidColumnNameError("Sheet1").Error(), "=COLUMNS(Sheet1!Sheet1)": newInvalidColumnNameError("Sheet1").Error(), // FORMULATEXT "=FORMULATEXT()": "FORMULATEXT requires 1 argument", "=FORMULATEXT(1)": "#VALUE!", // HLOOKUP "=HLOOKUP()": "HLOOKUP requires at least 3 arguments", "=HLOOKUP(D2,D1,1,FALSE)": "HLOOKUP requires second argument of table array", "=HLOOKUP(D2,D:D,FALSE,FALSE)": "HLOOKUP requires numeric row argument", "=HLOOKUP(D2,D:D,1,FALSE,FALSE)": "HLOOKUP requires at most 4 arguments", "=HLOOKUP(D2,D:D,1,2)": "HLOOKUP no result found", "=HLOOKUP(D2,D10:D10,1,FALSE)": "HLOOKUP no result found", "=HLOOKUP(D2,D2:D3,4,FALSE)": "HLOOKUP has invalid row index", "=HLOOKUP(D2,C:C,1,FALSE)": "HLOOKUP no result found", "=HLOOKUP(ISNUMBER(1),F3:F9,1)": "HLOOKUP no result found", "=HLOOKUP(INT(1),E2:E9,1)": "HLOOKUP no result found", "=HLOOKUP(MUNIT(2),MUNIT(3),1)": "HLOOKUP no result found", "=HLOOKUP(A1:B2,B2:B3,1)": "HLOOKUP no result found", // MATCH "=MATCH()": "MATCH requires 1 or 2 arguments", "=MATCH(0,A1:A1,0,0)": "MATCH requires 1 or 2 arguments", "=MATCH(0,A1:A1,\"x\")": "MATCH requires numeric match_type argument", "=MATCH(0,A1)": "MATCH arguments lookup_array should be one-dimensional array", "=MATCH(0,A1:B1)": "MATCH arguments lookup_array should be one-dimensional array", // TRANSPOSE "=TRANSPOSE()": "TRANSPOSE requires 1 argument", // HYPERLINK "=HYPERLINK()": "HYPERLINK requires at least 1 argument", "=HYPERLINK(\"https://github.com/xuri/excelize\",\"Excelize\",\"\")": "HYPERLINK allows at most 2 arguments", // VLOOKUP "=VLOOKUP()": "VLOOKUP requires at least 3 arguments", "=VLOOKUP(D2,D1,1,FALSE)": "VLOOKUP requires second argument of table array", "=VLOOKUP(D2,D:D,FALSE,FALSE)": "VLOOKUP requires numeric col argument", "=VLOOKUP(D2,D:D,1,FALSE,FALSE)": "VLOOKUP requires at most 4 arguments", "=VLOOKUP(D2,D10:D10,1,FALSE)": "VLOOKUP no result found", "=VLOOKUP(D2,D:D,2,FALSE)": "VLOOKUP has invalid column index", "=VLOOKUP(D2,C:C,1,FALSE)": "VLOOKUP no result found", "=VLOOKUP(ISNUMBER(1),F3:F9,1)": "VLOOKUP no result found", "=VLOOKUP(INT(1),E2:E9,1)": "VLOOKUP no result found", "=VLOOKUP(MUNIT(2),MUNIT(3),1)": "VLOOKUP no result found", "=VLOOKUP(1,G1:H2,1,FALSE)": "VLOOKUP no result found", // INDEX "=INDEX()": "INDEX requires 2 or 3 arguments", "=INDEX(A1,2)": "INDEX row_num out of range", "=INDEX(A1,0,2)": "INDEX col_num out of range", "=INDEX(A1:A1,2)": "INDEX row_num out of range", "=INDEX(A1:A1,0,2)": "INDEX col_num out of range", "=INDEX(A1:B2,2,3)": "INDEX col_num out of range", "=INDEX(A1:A2,0,0)": "#VALUE!", "=INDEX(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=INDEX(0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // INDIRECT "=INDIRECT()": "INDIRECT requires 1 or 2 arguments", "=INDIRECT(\"E\"&1,TRUE,1)": "INDIRECT requires 1 or 2 arguments", "=INDIRECT(\"R1048577C1\",\"\")": "#VALUE!", "=INDIRECT(\"E1048577\")": "#REF!", "=INDIRECT(\"R1048577C1\",FALSE)": "#REF!", "=INDIRECT(\"R1C16385\",FALSE)": "#REF!", "=INDIRECT(\"\",FALSE)": "#REF!", "=INDIRECT(\"R C1\",FALSE)": "#REF!", "=INDIRECT(\"R1C \",FALSE)": "#REF!", "=INDIRECT(\"R1C1:R2C \",FALSE)": "#REF!", // LOOKUP "=LOOKUP()": "LOOKUP requires at least 2 arguments", "=LOOKUP(D2,D1,D2)": "LOOKUP requires second argument of table array", "=LOOKUP(D2,D1,D2,FALSE)": "LOOKUP requires at most 3 arguments", "=LOOKUP(1,MUNIT(0))": "LOOKUP requires not empty range as second argument", "=LOOKUP(D1,MUNIT(1),MUNIT(1))": "LOOKUP no result found", // ROW "=ROW(1,2)": "ROW requires at most 1 argument", "=ROW(\"\")": "invalid reference", "=ROW(Sheet1)": newInvalidColumnNameError("Sheet1").Error(), "=ROW(Sheet1!A1!B1)": newInvalidColumnNameError("Sheet1").Error(), // ROWS "=ROWS()": "ROWS requires 1 argument", "=ROWS(1)": "invalid reference", "=ROWS(\"\")": "invalid reference", "=ROWS(Sheet1)": newInvalidColumnNameError("Sheet1").Error(), "=ROWS(Sheet1!A1!B1)": newInvalidColumnNameError("Sheet1").Error(), "=ROWS(Sheet1!Sheet1)": newInvalidColumnNameError("Sheet1").Error(), // Web Functions // ENCODEURL "=ENCODEURL()": "ENCODEURL requires 1 argument", // Financial Functions // ACCRINT "=ACCRINT()": "ACCRINT requires at least 6 arguments", "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"12/31/2013\",8%,10000,4,1,FALSE,0)": "ACCRINT allows at most 8 arguments", "=ACCRINT(\"\",\"04/01/2012\",\"12/31/2013\",8%,10000,4,1,FALSE)": "#VALUE!", "=ACCRINT(\"01/01/2012\",\"\",\"12/31/2013\",8%,10000,4,1,FALSE)": "#VALUE!", "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"\",8%,10000,4,1,FALSE)": "#VALUE!", "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"12/31/2013\",\"\",10000,4,1,FALSE)": "#NUM!", "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"12/31/2013\",8%,\"\",4,1,FALSE)": "#NUM!", "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"12/31/2013\",8%,10000,3)": "#NUM!", "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"12/31/2013\",8%,10000,\"\",1,FALSE)": "#NUM!", "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"12/31/2013\",8%,10000,4,\"\",FALSE)": "#NUM!", "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"12/31/2013\",8%,10000,4,1,\"\")": "#VALUE!", "=ACCRINT(\"01/01/2012\",\"04/01/2012\",\"12/31/2013\",8%,10000,4,5,FALSE)": "invalid basis", // ACCRINTM "=ACCRINTM()": "ACCRINTM requires 4 or 5 arguments", "=ACCRINTM(\"\",\"01/01/2012\",8%,10000)": "#VALUE!", "=ACCRINTM(\"01/01/2012\",\"\",8%,10000)": "#VALUE!", "=ACCRINTM(\"12/31/2012\",\"01/01/2012\",8%,10000)": "#NUM!", "=ACCRINTM(\"01/01/2012\",\"12/31/2012\",\"\",10000)": "#NUM!", "=ACCRINTM(\"01/01/2012\",\"12/31/2012\",8%,\"\",10000)": "#NUM!", "=ACCRINTM(\"01/01/2012\",\"12/31/2012\",8%,-1,10000)": "#NUM!", "=ACCRINTM(\"01/01/2012\",\"12/31/2012\",8%,10000,\"\")": "#NUM!", "=ACCRINTM(\"01/01/2012\",\"12/31/2012\",8%,10000,5)": "invalid basis", // AMORDEGRC "=AMORDEGRC()": "AMORDEGRC requires 6 or 7 arguments", "=AMORDEGRC(\"\",\"01/01/2015\",\"09/30/2015\",20,1,20%)": "AMORDEGRC requires cost to be number argument", "=AMORDEGRC(-1,\"01/01/2015\",\"09/30/2015\",20,1,20%)": "AMORDEGRC requires cost >= 0", "=AMORDEGRC(150,\"\",\"09/30/2015\",20,1,20%)": "#VALUE!", "=AMORDEGRC(150,\"01/01/2015\",\"\",20,1,20%)": "#VALUE!", "=AMORDEGRC(150,\"09/30/2015\",\"01/01/2015\",20,1,20%)": "#NUM!", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",\"\",1,20%)": "#NUM!", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",-1,1,20%)": "#NUM!", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,\"\",20%)": "#NUM!", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,-1,20%)": "#NUM!", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,1,\"\")": "#NUM!", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,1,-1)": "#NUM!", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,1,20%,\"\")": "#NUM!", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,1,50%)": "AMORDEGRC requires rate to be < 0.5", "=AMORDEGRC(150,\"01/01/2015\",\"09/30/2015\",20,1,20%,5)": "invalid basis", // AMORLINC "=AMORLINC()": "AMORLINC requires 6 or 7 arguments", "=AMORLINC(\"\",\"01/01/2015\",\"09/30/2015\",20,1,20%)": "AMORLINC requires cost to be number argument", "=AMORLINC(-1,\"01/01/2015\",\"09/30/2015\",20,1,20%)": "AMORLINC requires cost >= 0", "=AMORLINC(150,\"\",\"09/30/2015\",20,1,20%)": "#VALUE!", "=AMORLINC(150,\"01/01/2015\",\"\",20,1,20%)": "#VALUE!", "=AMORLINC(150,\"09/30/2015\",\"01/01/2015\",20,1,20%)": "#NUM!", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",\"\",1,20%)": "#NUM!", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",-1,1,20%)": "#NUM!", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,\"\",20%)": "#NUM!", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,-1,20%)": "#NUM!", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,1,\"\")": "#NUM!", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,1,-1)": "#NUM!", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,1,20%,\"\")": "#NUM!", "=AMORLINC(150,\"01/01/2015\",\"09/30/2015\",20,1,20%,5)": "invalid basis", // COUPDAYBS "=COUPDAYBS()": "COUPDAYBS requires 3 or 4 arguments", "=COUPDAYBS(\"\",\"10/25/2012\",4)": "#VALUE!", "=COUPDAYBS(\"01/01/2011\",\"\",4)": "#VALUE!", "=COUPDAYBS(\"01/01/2011\",\"10/25/2012\",\"\")": "#VALUE!", "=COUPDAYBS(\"01/01/2011\",\"10/25/2012\",4,\"\")": "#NUM!", "=COUPDAYBS(\"10/25/2012\",\"01/01/2011\",4)": "COUPDAYBS requires maturity > settlement", // COUPDAYS "=COUPDAYS()": "COUPDAYS requires 3 or 4 arguments", "=COUPDAYS(\"\",\"10/25/2012\",4)": "#VALUE!", "=COUPDAYS(\"01/01/2011\",\"\",4)": "#VALUE!", "=COUPDAYS(\"01/01/2011\",\"10/25/2012\",\"\")": "#VALUE!", "=COUPDAYS(\"01/01/2011\",\"10/25/2012\",4,\"\")": "#NUM!", "=COUPDAYS(\"10/25/2012\",\"01/01/2011\",4)": "COUPDAYS requires maturity > settlement", // COUPDAYSNC "=COUPDAYSNC()": "COUPDAYSNC requires 3 or 4 arguments", "=COUPDAYSNC(\"\",\"10/25/2012\",4)": "#VALUE!", "=COUPDAYSNC(\"01/01/2011\",\"\",4)": "#VALUE!", "=COUPDAYSNC(\"01/01/2011\",\"10/25/2012\",\"\")": "#VALUE!", "=COUPDAYSNC(\"01/01/2011\",\"10/25/2012\",4,\"\")": "#NUM!", "=COUPDAYSNC(\"10/25/2012\",\"01/01/2011\",4)": "COUPDAYSNC requires maturity > settlement", // COUPNCD "=COUPNCD()": "COUPNCD requires 3 or 4 arguments", "=COUPNCD(\"01/01/2011\",\"10/25/2012\",4,0,0)": "COUPNCD requires 3 or 4 arguments", "=COUPNCD(\"\",\"10/25/2012\",4)": "#VALUE!", "=COUPNCD(\"01/01/2011\",\"\",4)": "#VALUE!", "=COUPNCD(\"01/01/2011\",\"10/25/2012\",\"\")": "#VALUE!", "=COUPNCD(\"01/01/2011\",\"10/25/2012\",4,\"\")": "#NUM!", "=COUPNCD(\"01/01/2011\",\"10/25/2012\",3)": "#NUM!", "=COUPNCD(\"10/25/2012\",\"01/01/2011\",4)": "COUPNCD requires maturity > settlement", // COUPNUM "=COUPNUM()": "COUPNUM requires 3 or 4 arguments", "=COUPNUM(\"01/01/2011\",\"10/25/2012\",4,0,0)": "COUPNUM requires 3 or 4 arguments", "=COUPNUM(\"\",\"10/25/2012\",4)": "#VALUE!", "=COUPNUM(\"01/01/2011\",\"\",4)": "#VALUE!", "=COUPNUM(\"01/01/2011\",\"10/25/2012\",\"\")": "#VALUE!", "=COUPNUM(\"01/01/2011\",\"10/25/2012\",4,\"\")": "#NUM!", "=COUPNUM(\"01/01/2011\",\"10/25/2012\",3)": "#NUM!", "=COUPNUM(\"10/25/2012\",\"01/01/2011\",4)": "COUPNUM requires maturity > settlement", // COUPPCD "=COUPPCD()": "COUPPCD requires 3 or 4 arguments", "=COUPPCD(\"01/01/2011\",\"10/25/2012\",4,0,0)": "COUPPCD requires 3 or 4 arguments", "=COUPPCD(\"\",\"10/25/2012\",4)": "#VALUE!", "=COUPPCD(\"01/01/2011\",\"\",4)": "#VALUE!", "=COUPPCD(\"01/01/2011\",\"10/25/2012\",\"\")": "#VALUE!", "=COUPPCD(\"01/01/2011\",\"10/25/2012\",4,\"\")": "#NUM!", "=COUPPCD(\"01/01/2011\",\"10/25/2012\",3)": "#NUM!", "=COUPPCD(\"10/25/2012\",\"01/01/2011\",4)": "COUPPCD requires maturity > settlement", // CUMIPMT "=CUMIPMT()": "CUMIPMT requires 6 arguments", "=CUMIPMT(0,0,0,0,0,2)": "#N/A", "=CUMIPMT(0,0,0,-1,0,0)": "#N/A", "=CUMIPMT(0,0,0,1,0,0)": "#N/A", "=CUMIPMT(\"\",0,0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CUMIPMT(0,\"\",0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CUMIPMT(0,0,\"\",0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CUMIPMT(0,0,0,\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CUMIPMT(0,0,0,0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CUMIPMT(0,0,0,0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // CUMPRINC "=CUMPRINC()": "CUMPRINC requires 6 arguments", "=CUMPRINC(0,0,0,0,0,2)": "#N/A", "=CUMPRINC(0,0,0,-1,0,0)": "#N/A", "=CUMPRINC(0,0,0,1,0,0)": "#N/A", "=CUMPRINC(\"\",0,0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CUMPRINC(0,\"\",0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CUMPRINC(0,0,\"\",0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CUMPRINC(0,0,0,\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CUMPRINC(0,0,0,0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=CUMPRINC(0,0,0,0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // DB "=DB()": "DB requires at least 4 arguments", "=DB(0,0,0,0,0,0)": "DB allows at most 5 arguments", "=DB(-1,0,0,0)": "#N/A", "=DB(\"\",0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DB(0,\"\",0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DB(0,0,\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DB(0,0,0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DB(0,0,0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // DDB "=DDB()": "DDB requires at least 4 arguments", "=DDB(0,0,0,0,0,0)": "DDB allows at most 5 arguments", "=DDB(-1,0,0,0)": "#N/A", "=DDB(\"\",0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DDB(0,\"\",0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DDB(0,0,\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DDB(0,0,0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DDB(0,0,0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // DISC "=DISC()": "DISC requires 4 or 5 arguments", "=DISC(\"\",\"03/31/2021\",95,100)": "#VALUE!", "=DISC(\"04/01/2016\",\"\",95,100)": "#VALUE!", "=DISC(\"04/01/2016\",\"03/31/2021\",\"\",100)": "#VALUE!", "=DISC(\"04/01/2016\",\"03/31/2021\",95,\"\")": "#VALUE!", "=DISC(\"04/01/2016\",\"03/31/2021\",95,100,\"\")": "#NUM!", "=DISC(\"03/31/2021\",\"04/01/2016\",95,100)": "DISC requires maturity > settlement", "=DISC(\"04/01/2016\",\"03/31/2021\",0,100)": "DISC requires pr > 0", "=DISC(\"04/01/2016\",\"03/31/2021\",95,0)": "DISC requires redemption > 0", "=DISC(\"04/01/2016\",\"03/31/2021\",95,100,5)": "invalid basis", // DOLLARDE "=DOLLARDE()": "DOLLARDE requires 2 arguments", "=DOLLARDE(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DOLLARDE(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DOLLARDE(0,-1)": "#NUM!", "=DOLLARDE(0,0)": "#DIV/0!", // DOLLARFR "=DOLLARFR()": "DOLLARFR requires 2 arguments", "=DOLLARFR(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DOLLARFR(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DOLLARFR(0,-1)": "#NUM!", "=DOLLARFR(0,0)": "#DIV/0!", // DURATION "=DURATION()": "DURATION requires 5 or 6 arguments", "=DURATION(\"\",\"03/31/2025\",10%,8%,4)": "#VALUE!", "=DURATION(\"04/01/2015\",\"\",10%,8%,4)": "#VALUE!", "=DURATION(\"03/31/2025\",\"04/01/2015\",10%,8%,4)": "DURATION requires maturity > settlement", "=DURATION(\"04/01/2015\",\"03/31/2025\",-1,8%,4)": "DURATION requires coupon >= 0", "=DURATION(\"04/01/2015\",\"03/31/2025\",10%,-1,4)": "DURATION requires yld >= 0", "=DURATION(\"04/01/2015\",\"03/31/2025\",\"\",8%,4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DURATION(\"04/01/2015\",\"03/31/2025\",10%,\"\",4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DURATION(\"04/01/2015\",\"03/31/2025\",10%,8%,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=DURATION(\"04/01/2015\",\"03/31/2025\",10%,8%,3)": "#NUM!", "=DURATION(\"04/01/2015\",\"03/31/2025\",10%,8%,4,\"\")": "#NUM!", "=DURATION(\"04/01/2015\",\"03/31/2025\",10%,8%,4,5)": "invalid basis", // EFFECT "=EFFECT()": "EFFECT requires 2 arguments", "=EFFECT(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=EFFECT(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=EFFECT(0,0)": "#NUM!", "=EFFECT(1,0)": "#NUM!", // EUROCONVERT "=EUROCONVERT()": "EUROCONVERT requires at least 3 arguments", "=EUROCONVERT(1.47,\"FRF\",\"DEM\",TRUE,3,1)": "EUROCONVERT allows at most 5 arguments", "=EUROCONVERT(\"\",\"FRF\",\"DEM\",TRUE,3)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=EUROCONVERT(1.47,\"FRF\",\"DEM\",\"\",3)": "strconv.ParseBool: parsing \"\": invalid syntax", "=EUROCONVERT(1.47,\"FRF\",\"DEM\",TRUE,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=EUROCONVERT(1.47,\"\",\"DEM\")": "#VALUE!", "=EUROCONVERT(1.47,\"FRF\",\"\",TRUE,3)": "#VALUE!", // FV "=FV()": "FV requires at least 3 arguments", "=FV(0,0,0,0,0,0,0)": "FV allows at most 5 arguments", "=FV(0,0,0,0,2)": "#N/A", "=FV(\"\",0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FV(0,\"\",0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FV(0,0,\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FV(0,0,0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FV(0,0,0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // FVSCHEDULE "=FVSCHEDULE()": "FVSCHEDULE requires 2 arguments", "=FVSCHEDULE(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=FVSCHEDULE(0,\"x\")": "strconv.ParseFloat: parsing \"x\": invalid syntax", // INTRATE "=INTRATE()": "INTRATE requires 4 or 5 arguments", "=INTRATE(\"\",\"03/31/2021\",95,100)": "#VALUE!", "=INTRATE(\"04/01/2016\",\"\",95,100)": "#VALUE!", "=INTRATE(\"04/01/2016\",\"03/31/2021\",\"\",100)": "#VALUE!", "=INTRATE(\"04/01/2016\",\"03/31/2021\",95,\"\")": "#VALUE!", "=INTRATE(\"04/01/2016\",\"03/31/2021\",95,100,\"\")": "#NUM!", "=INTRATE(\"03/31/2021\",\"04/01/2016\",95,100)": "INTRATE requires maturity > settlement", "=INTRATE(\"04/01/2016\",\"03/31/2021\",0,100)": "INTRATE requires investment > 0", "=INTRATE(\"04/01/2016\",\"03/31/2021\",95,0)": "INTRATE requires redemption > 0", "=INTRATE(\"04/01/2016\",\"03/31/2021\",95,100,5)": "invalid basis", // IPMT "=IPMT()": "IPMT requires at least 4 arguments", "=IPMT(0,0,0,0,0,0,0)": "IPMT allows at most 6 arguments", "=IPMT(0,0,0,0,0,2)": "#N/A", "=IPMT(0,-1,0,0,0,0)": "#N/A", "=IPMT(0,1,0,0,0,0)": "#N/A", "=IPMT(\"\",0,0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=IPMT(0,\"\",0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=IPMT(0,0,\"\",0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=IPMT(0,0,0,\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=IPMT(0,0,0,0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=IPMT(0,0,0,0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // ISPMT "=ISPMT()": "ISPMT requires 4 arguments", "=ISPMT(\"\",0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ISPMT(0,\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ISPMT(0,0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ISPMT(0,0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // MDURATION "=MDURATION()": "MDURATION requires 5 or 6 arguments", "=MDURATION(\"\",\"03/31/2025\",10%,8%,4)": "#VALUE!", "=MDURATION(\"04/01/2015\",\"\",10%,8%,4)": "#VALUE!", "=MDURATION(\"03/31/2025\",\"04/01/2015\",10%,8%,4)": "MDURATION requires maturity > settlement", "=MDURATION(\"04/01/2015\",\"03/31/2025\",-1,8%,4)": "MDURATION requires coupon >= 0", "=MDURATION(\"04/01/2015\",\"03/31/2025\",10%,-1,4)": "MDURATION requires yld >= 0", "=MDURATION(\"04/01/2015\",\"03/31/2025\",\"\",8%,4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=MDURATION(\"04/01/2015\",\"03/31/2025\",10%,\"\",4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=MDURATION(\"04/01/2015\",\"03/31/2025\",10%,8%,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=MDURATION(\"04/01/2015\",\"03/31/2025\",10%,8%,3)": "#NUM!", "=MDURATION(\"04/01/2015\",\"03/31/2025\",10%,8%,4,\"\")": "#NUM!", "=MDURATION(\"04/01/2015\",\"03/31/2025\",10%,8%,4,5)": "invalid basis", // NOMINAL "=NOMINAL()": "NOMINAL requires 2 arguments", "=NOMINAL(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NOMINAL(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NOMINAL(0,0)": "#NUM!", "=NOMINAL(1,0)": "#NUM!", // NPER "=NPER()": "NPER requires at least 3 arguments", "=NPER(0,0,0,0,0,0)": "NPER allows at most 5 arguments", "=NPER(0,0,0)": "#NUM!", "=NPER(0,0,0,0,2)": "#N/A", "=NPER(\"\",0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NPER(0,\"\",0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NPER(0,0,\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NPER(0,0,0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=NPER(0,0,0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // NPV "=NPV()": "NPV requires at least 2 arguments", "=NPV(\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", // ODDFPRICE "=ODDFPRICE()": "ODDFPRICE requires 8 or 9 arguments", "=ODDFPRICE(\"\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,2)": "#VALUE!", "=ODDFPRICE(\"02/01/2017\",\"\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,2)": "#VALUE!", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"\",\"03/31/2017\",5.5%,3.5%,100,2)": "#VALUE!", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"\",5.5%,3.5%,100,2)": "#VALUE!", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",\"\",3.5%,100,2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,\"\",100,2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,\"\",2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"02/01/2017\",\"03/31/2017\",5.5%,3.5%,100,2)": "ODDFPRICE requires settlement > issue", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"02/01/2017\",5.5%,3.5%,100,2)": "ODDFPRICE requires first_coupon > settlement", "=ODDFPRICE(\"02/01/2017\",\"02/01/2017\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,2)": "ODDFPRICE requires maturity > first_coupon", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",-1,3.5%,100,2)": "ODDFPRICE requires rate >= 0", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,-1,100,2)": "ODDFPRICE requires yld >= 0", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,0,2)": "ODDFPRICE requires redemption > 0", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,2,\"\")": "#NUM!", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,3)": "#NUM!", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/30/2017\",5.5%,3.5%,100,4)": "#NUM!", "=ODDFPRICE(\"02/01/2017\",\"03/31/2021\",\"12/01/2016\",\"03/31/2017\",5.5%,3.5%,100,2,5)": "invalid basis", // PDURATION "=PDURATION()": "PDURATION requires 3 arguments", "=PDURATION(\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PDURATION(0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PDURATION(0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PDURATION(0,0,0)": "#NUM!", // PMT "=PMT()": "PMT requires at least 3 arguments", "=PMT(0,0,0,0,0,0)": "PMT allows at most 5 arguments", "=PMT(0,0,0,0,2)": "#N/A", "=PMT(\"\",0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PMT(0,\"\",0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PMT(0,0,\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PMT(0,0,0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PMT(0,0,0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // PRICE "=PRICE()": "PRICE requires 6 or 7 arguments", "=PRICE(\"\",\"02/01/2020\",12%,10%,100,2,4)": "#VALUE!", "=PRICE(\"04/01/2012\",\"\",12%,10%,100,2,4)": "#VALUE!", "=PRICE(\"04/01/2012\",\"02/01/2020\",\"\",10%,100,2,4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PRICE(\"04/01/2012\",\"02/01/2020\",12%,\"\",100,2,4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PRICE(\"04/01/2012\",\"02/01/2020\",12%,10%,\"\",2,4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PRICE(\"04/01/2012\",\"02/01/2020\",12%,10%,100,\"\",4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PRICE(\"04/01/2012\",\"02/01/2020\",-1,10%,100,2,4)": "PRICE requires rate >= 0", "=PRICE(\"04/01/2012\",\"02/01/2020\",12%,-1,100,2,4)": "PRICE requires yld >= 0", "=PRICE(\"04/01/2012\",\"02/01/2020\",12%,10%,0,2,4)": "PRICE requires redemption > 0", "=PRICE(\"04/01/2012\",\"02/01/2020\",12%,10%,100,2,\"\")": "#NUM!", "=PRICE(\"04/01/2012\",\"02/01/2020\",12%,10%,100,3,4)": "#NUM!", "=PRICE(\"04/01/2012\",\"02/01/2020\",12%,10%,100,2,5)": "invalid basis", // PPMT "=PPMT()": "PPMT requires at least 4 arguments", "=PPMT(0,0,0,0,0,0,0)": "PPMT allows at most 6 arguments", "=PPMT(0,0,0,0,0,2)": "#N/A", "=PPMT(0,-1,0,0,0,0)": "#N/A", "=PPMT(0,1,0,0,0,0)": "#N/A", "=PPMT(\"\",0,0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PPMT(0,\"\",0,0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PPMT(0,0,\"\",0,0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PPMT(0,0,0,\"\",0,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PPMT(0,0,0,0,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PPMT(0,0,0,0,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // PRICEDISC "=PRICEDISC()": "PRICEDISC requires 4 or 5 arguments", "=PRICEDISC(\"\",\"03/31/2021\",95,100)": "#VALUE!", "=PRICEDISC(\"04/01/2016\",\"\",95,100)": "#VALUE!", "=PRICEDISC(\"04/01/2016\",\"03/31/2021\",\"\",100)": "#VALUE!", "=PRICEDISC(\"04/01/2016\",\"03/31/2021\",95,\"\")": "#VALUE!", "=PRICEDISC(\"04/01/2016\",\"03/31/2021\",95,100,\"\")": "#NUM!", "=PRICEDISC(\"03/31/2021\",\"04/01/2016\",95,100)": "PRICEDISC requires maturity > settlement", "=PRICEDISC(\"04/01/2016\",\"03/31/2021\",0,100)": "PRICEDISC requires discount > 0", "=PRICEDISC(\"04/01/2016\",\"03/31/2021\",95,0)": "PRICEDISC requires redemption > 0", "=PRICEDISC(\"04/01/2016\",\"03/31/2021\",95,100,5)": "invalid basis", // PRICEMAT "=PRICEMAT()": "PRICEMAT requires 5 or 6 arguments", "=PRICEMAT(\"\",\"03/31/2021\",\"01/01/2017\",4.5%,2.5%)": "#VALUE!", "=PRICEMAT(\"04/01/2017\",\"\",\"01/01/2017\",4.5%,2.5%)": "#VALUE!", "=PRICEMAT(\"04/01/2017\",\"03/31/2021\",\"\",4.5%,2.5%)": "#VALUE!", "=PRICEMAT(\"04/01/2017\",\"03/31/2021\",\"01/01/2017\",\"\",2.5%)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PRICEMAT(\"04/01/2017\",\"03/31/2021\",\"01/01/2017\",4.5%,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PRICEMAT(\"04/01/2017\",\"03/31/2021\",\"01/01/2017\",4.5%,2.5%,\"\")": "#NUM!", "=PRICEMAT(\"03/31/2021\",\"04/01/2017\",\"01/01/2017\",4.5%,2.5%)": "PRICEMAT requires maturity > settlement", "=PRICEMAT(\"01/01/2017\",\"03/31/2021\",\"04/01/2017\",4.5%,2.5%)": "PRICEMAT requires settlement > issue", "=PRICEMAT(\"04/01/2017\",\"03/31/2021\",\"01/01/2017\",-1,2.5%)": "PRICEMAT requires rate >= 0", "=PRICEMAT(\"04/01/2017\",\"03/31/2021\",\"01/01/2017\",4.5%,-1)": "PRICEMAT requires yld >= 0", "=PRICEMAT(\"04/01/2017\",\"03/31/2021\",\"01/01/2017\",4.5%,2.5%,5)": "invalid basis", // PV "=PV()": "PV requires at least 3 arguments", "=PV(10%/4,16,2000,0,1,0)": "PV allows at most 5 arguments", "=PV(\"\",16,2000,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PV(10%/4,\"\",2000,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PV(10%/4,16,\"\",0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PV(10%/4,16,2000,\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=PV(10%/4,16,2000,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // RATE "=RATE()": "RATE requires at least 3 arguments", "=RATE(48,-200,8000,3,1,0.5,0)": "RATE allows at most 6 arguments", "=RATE(\"\",-200,8000,3,1,0.5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RATE(48,\"\",8000,3,1,0.5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RATE(48,-200,\"\",3,1,0.5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RATE(48,-200,8000,\"\",1,0.5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RATE(48,-200,8000,3,\"\",0.5)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RATE(48,-200,8000,3,1,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", // RECEIVED "=RECEIVED()": "RECEIVED requires at least 4 arguments", "=RECEIVED(\"04/01/2011\",\"03/31/2016\",1000,4.5%,1,0)": "RECEIVED allows at most 5 arguments", "=RECEIVED(\"\",\"03/31/2016\",1000,4.5%,1)": "#VALUE!", "=RECEIVED(\"04/01/2011\",\"\",1000,4.5%,1)": "#VALUE!", "=RECEIVED(\"04/01/2011\",\"03/31/2016\",\"\",4.5%,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RECEIVED(\"04/01/2011\",\"03/31/2016\",1000,\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=RECEIVED(\"04/01/2011\",\"03/31/2016\",1000,4.5%,\"\")": "#NUM!", "=RECEIVED(\"04/01/2011\",\"03/31/2016\",1000,0)": "RECEIVED requires discount > 0", "=RECEIVED(\"04/01/2011\",\"03/31/2016\",1000,4.5%,5)": "invalid basis", // RRI "=RRI()": "RRI requires 3 arguments", "=RRI(\"\",\"\",\"\")": "#NUM!", "=RRI(0,10000,15000)": "RRI requires nper argument to be > 0", "=RRI(10,0,15000)": "RRI requires pv argument to be > 0", "=RRI(10,10000,-1)": "RRI requires fv argument to be >= 0", // SLN "=SLN()": "SLN requires 3 arguments", "=SLN(\"\",\"\",\"\")": "#NUM!", "=SLN(10000,1000,0)": "SLN requires life argument to be > 0", // SYD "=SYD()": "SYD requires 4 arguments", "=SYD(\"\",\"\",\"\",\"\")": "#NUM!", "=SYD(10000,1000,0,1)": "SYD requires life argument to be > 0", "=SYD(10000,1000,5,0)": "SYD requires per argument to be > 0", "=SYD(10000,1000,1,5)": "#NUM!", // TBILLEQ "=TBILLEQ()": "TBILLEQ requires 3 arguments", "=TBILLEQ(\"\",\"06/30/2017\",2.5%)": "#VALUE!", "=TBILLEQ(\"01/01/2017\",\"\",2.5%)": "#VALUE!", "=TBILLEQ(\"01/01/2017\",\"06/30/2017\",\"\")": "#VALUE!", "=TBILLEQ(\"01/01/2017\",\"06/30/2017\",0)": "#NUM!", "=TBILLEQ(\"01/01/2017\",\"06/30/2018\",2.5%)": "#NUM!", "=TBILLEQ(\"06/30/2017\",\"01/01/2017\",2.5%)": "#NUM!", // TBILLPRICE "=TBILLPRICE()": "TBILLPRICE requires 3 arguments", "=TBILLPRICE(\"\",\"06/30/2017\",2.5%)": "#VALUE!", "=TBILLPRICE(\"01/01/2017\",\"\",2.5%)": "#VALUE!", "=TBILLPRICE(\"01/01/2017\",\"06/30/2017\",\"\")": "#VALUE!", "=TBILLPRICE(\"01/01/2017\",\"06/30/2017\",0)": "#NUM!", "=TBILLPRICE(\"01/01/2017\",\"06/30/2018\",2.5%)": "#NUM!", "=TBILLPRICE(\"06/30/2017\",\"01/01/2017\",2.5%)": "#NUM!", // TBILLYIELD "=TBILLYIELD()": "TBILLYIELD requires 3 arguments", "=TBILLYIELD(\"\",\"06/30/2017\",2.5%)": "#VALUE!", "=TBILLYIELD(\"01/01/2017\",\"\",2.5%)": "#VALUE!", "=TBILLYIELD(\"01/01/2017\",\"06/30/2017\",\"\")": "#VALUE!", "=TBILLYIELD(\"01/01/2017\",\"06/30/2017\",0)": "#NUM!", "=TBILLYIELD(\"01/01/2017\",\"06/30/2018\",2.5%)": "#NUM!", "=TBILLYIELD(\"06/30/2017\",\"01/01/2017\",2.5%)": "#NUM!", // VDB "=VDB()": "VDB requires 5 or 7 arguments", "=VDB(-1,1000,5,0,1)": "VDB requires cost >= 0", "=VDB(10000,-1,5,0,1)": "VDB requires salvage >= 0", "=VDB(10000,1000,0,0,1)": "VDB requires life > 0", "=VDB(10000,1000,5,-1,1)": "VDB requires start_period > 0", "=VDB(10000,1000,5,2,1)": "VDB requires start_period <= end_period", "=VDB(10000,1000,5,0,6)": "VDB requires end_period <= life", "=VDB(10000,1000,5,0,1,-0.2)": "VDB requires factor >= 0", "=VDB(\"\",1000,5,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=VDB(10000,\"\",5,0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=VDB(10000,1000,\"\",0,1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=VDB(10000,1000,5,\"\",1)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=VDB(10000,1000,5,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=VDB(10000,1000,5,0,1,\"\")": "#NUM!", "=VDB(10000,1000,5,0,1,0.2,\"\")": "#NUM!", // YIELD "=YIELD()": "YIELD requires 6 or 7 arguments", "=YIELD(\"\",\"06/30/2015\",10%,101,100,4)": "#VALUE!", "=YIELD(\"01/01/2010\",\"\",10%,101,100,4)": "#VALUE!", "=YIELD(\"01/01/2010\",\"06/30/2015\",\"\",101,100,4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=YIELD(\"01/01/2010\",\"06/30/2015\",10%,\"\",100,4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=YIELD(\"01/01/2010\",\"06/30/2015\",10%,101,\"\",4)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=YIELD(\"01/01/2010\",\"06/30/2015\",10%,101,100,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=YIELD(\"01/01/2010\",\"06/30/2015\",10%,101,100,4,\"\")": "#NUM!", "=YIELD(\"01/01/2010\",\"06/30/2015\",10%,101,100,3)": "#NUM!", "=YIELD(\"01/01/2010\",\"06/30/2015\",10%,101,100,4,5)": "invalid basis", "=YIELD(\"01/01/2010\",\"06/30/2015\",-1,101,100,4)": "PRICE requires rate >= 0", "=YIELD(\"01/01/2010\",\"06/30/2015\",10%,0,100,4)": "PRICE requires pr > 0", "=YIELD(\"01/01/2010\",\"06/30/2015\",10%,101,-1,4)": "PRICE requires redemption >= 0", // YIELDDISC "=YIELDDISC()": "YIELDDISC requires 4 or 5 arguments", "=YIELDDISC(\"\",\"06/30/2017\",97,100,0)": "#VALUE!", "=YIELDDISC(\"01/01/2017\",\"\",97,100,0)": "#VALUE!", "=YIELDDISC(\"01/01/2017\",\"06/30/2017\",\"\",100,0)": "#VALUE!", "=YIELDDISC(\"01/01/2017\",\"06/30/2017\",97,\"\",0)": "#VALUE!", "=YIELDDISC(\"01/01/2017\",\"06/30/2017\",97,100,\"\")": "#NUM!", "=YIELDDISC(\"01/01/2017\",\"06/30/2017\",0,100)": "YIELDDISC requires pr > 0", "=YIELDDISC(\"01/01/2017\",\"06/30/2017\",97,0)": "YIELDDISC requires redemption > 0", "=YIELDDISC(\"01/01/2017\",\"06/30/2017\",97,100,5)": "invalid basis", // YIELDMAT "=YIELDMAT()": "YIELDMAT requires 5 or 6 arguments", "=YIELDMAT(\"\",\"06/30/2018\",\"06/01/2014\",5.5%,101,0)": "#VALUE!", "=YIELDMAT(\"01/01/2017\",\"\",\"06/01/2014\",5.5%,101,0)": "#VALUE!", "=YIELDMAT(\"01/01/2017\",\"06/30/2018\",\"\",5.5%,101,0)": "#VALUE!", "=YIELDMAT(\"01/01/2017\",\"06/30/2018\",\"06/01/2014\",\"\",101,0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=YIELDMAT(\"01/01/2017\",\"06/30/2018\",\"06/01/2014\",5,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=YIELDMAT(\"01/01/2017\",\"06/30/2018\",\"06/01/2014\",5,5.5%,\"\")": "#NUM!", "=YIELDMAT(\"06/01/2014\",\"06/30/2018\",\"01/01/2017\",5.5%,101,0)": "YIELDMAT requires settlement > issue", "=YIELDMAT(\"01/01/2017\",\"06/30/2018\",\"06/01/2014\",-1,101,0)": "YIELDMAT requires rate >= 0", "=YIELDMAT(\"01/01/2017\",\"06/30/2018\",\"06/01/2014\",1,0,0)": "YIELDMAT requires pr > 0", "=YIELDMAT(\"01/01/2017\",\"06/30/2018\",\"06/01/2014\",5.5%,101,5)": "invalid basis", } for formula, expected := range mathCalcError { f := prepareCalcData(cellData) assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } referenceCalc := map[string]string{ // MDETERM "=MDETERM(A1:B2)": "-3", // PRODUCT "=PRODUCT(Sheet1!A1:Sheet1!A1:A2,A2)": "4", // IMPRODUCT "=IMPRODUCT(Sheet1!A1:Sheet1!A1:A2,A2)": "4", // SUM "=A1/A3": "0.333333333333333", "=SUM(A1:A2)": "3", "=SUM(Sheet1!A1,A2)": "3", "=(-2-SUM(-4+A2))*5": "0", "=SUM(Sheet1!A1:Sheet1!A1:A2,A2)": "5", "=SUM(A1,A2,A3)*SUM(2,3)": "30", "=1+SUM(SUM(A1+A2/A3)*(2-3),2)": "1.33333333333333", "=A1/A2/SUM(A1:A2:B1)": "0.0416666666666667", "=A1/A2/SUM(A1:A2:B1)*A3": "0.125", "=SUM(B1:D1)": "4", "=SUM(\"X\")": "0", } for formula, expected := range referenceCalc { f := prepareCalcData(cellData) assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err) assert.Equal(t, expected, result, formula) } referenceCalcError := map[string]string{ // MDETERM "=MDETERM(A1:B3)": "#VALUE!", // SUM "=1+SUM(SUM(A1+A2/A4)*(2-3),2)": "#DIV/0!", } for formula, expected := range referenceCalcError { f := prepareCalcData(cellData) assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } volatileFuncs := []string{ "=NOW()", "=RAND()", "=RANDBETWEEN(1,2)", "=TODAY()", } for _, formula := range volatileFuncs { f := prepareCalcData(cellData) assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) _, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err) } // Test get calculated cell value on not formula cell f := prepareCalcData(cellData) result, err := f.CalcCellValue("Sheet1", "A1") assert.NoError(t, err) assert.Equal(t, "", result) // Test get calculated cell value on not exists worksheet f = prepareCalcData(cellData) _, err = f.CalcCellValue("SheetN", "A1") assert.EqualError(t, err, "sheet SheetN does not exist") // Test get calculated cell value with invalid sheet name _, err = f.CalcCellValue("Sheet:1", "A1") assert.EqualError(t, err, ErrSheetNameInvalid.Error()) // Test get calculated cell value with not support formula f = prepareCalcData(cellData) assert.NoError(t, f.SetCellFormula("Sheet1", "A1", "=UNSUPPORT(A1)")) _, err = f.CalcCellValue("Sheet1", "A1") assert.EqualError(t, err, "not support UNSUPPORT function") assert.NoError(t, f.SaveAs(filepath.Join("test", "TestCalcCellValue.xlsx"))) } func TestCalcWithDefinedName(t *testing.T) { cellData := [][]interface{}{ {"A1_as_string", "B1_as_string", 123, nil}, } f := prepareCalcData(cellData) assert.NoError(t, f.SetDefinedName(&DefinedName{Name: "defined_name1", RefersTo: "Sheet1!A1", Scope: "Workbook"})) assert.NoError(t, f.SetDefinedName(&DefinedName{Name: "defined_name1", RefersTo: "Sheet1!B1", Scope: "Sheet1"})) assert.NoError(t, f.SetDefinedName(&DefinedName{Name: "defined_name2", RefersTo: "Sheet1!C1", Scope: "Workbook"})) assert.NoError(t, f.SetCellFormula("Sheet1", "D1", "=defined_name1")) result, err := f.CalcCellValue("Sheet1", "D1") assert.NoError(t, err) // DefinedName with scope WorkSheet takes precedence over DefinedName with scope Workbook, so we should get B1 value assert.Equal(t, "B1_as_string", result, "=defined_name1") assert.NoError(t, f.SetCellFormula("Sheet1", "D1", `=CONCATENATE("<",defined_name1,">")`)) result, err = f.CalcCellValue("Sheet1", "D1") assert.NoError(t, err) assert.Equal(t, "", result, "=defined_name1") // comparing numeric values assert.NoError(t, f.SetCellFormula("Sheet1", "D1", `=123=defined_name2`)) result, err = f.CalcCellValue("Sheet1", "D1") assert.NoError(t, err) assert.Equal(t, "TRUE", result, "=123=defined_name2") // comparing text values assert.NoError(t, f.SetCellFormula("Sheet1", "D1", `="B1_as_string"=defined_name1`)) result, err = f.CalcCellValue("Sheet1", "D1") assert.NoError(t, err) assert.Equal(t, "TRUE", result, `="B1_as_string"=defined_name1`) // comparing text values assert.NoError(t, f.SetCellFormula("Sheet1", "D1", `=IF("B1_as_string"=defined_name1,"YES","NO")`)) result, err = f.CalcCellValue("Sheet1", "D1") assert.NoError(t, err) assert.Equal(t, "YES", result, `=IF("B1_as_string"=defined_name1,"YES","NO")`) } func TestCalcISBLANK(t *testing.T) { argsList := list.New() argsList.PushBack(formulaArg{ Type: ArgUnknown, }) fn := formulaFuncs{} result := fn.ISBLANK(argsList) assert.Equal(t, "TRUE", result.Value()) assert.Empty(t, result.Error) } func TestCalcAND(t *testing.T) { argsList := list.New() argsList.PushBack(formulaArg{ Type: ArgUnknown, }) fn := formulaFuncs{} result := fn.AND(argsList) assert.Equal(t, result.String, "") assert.Empty(t, result.Error) } func TestCalcOR(t *testing.T) { argsList := list.New() argsList.PushBack(formulaArg{ Type: ArgUnknown, }) fn := formulaFuncs{} result := fn.OR(argsList) assert.Equal(t, result.String, "FALSE") assert.Empty(t, result.Error) } func TestCalcDet(t *testing.T) { assert.Equal(t, det([][]float64{ {1, 2, 3, 4}, {2, 3, 4, 5}, {3, 4, 5, 6}, {4, 5, 6, 7}, }), float64(0)) } func TestCalcToBool(t *testing.T) { b := newBoolFormulaArg(true).ToBool() assert.Equal(t, b.Boolean, true) assert.Equal(t, b.Number, 1.0) } func TestCalcToList(t *testing.T) { assert.Equal(t, []formulaArg(nil), newEmptyFormulaArg().ToList()) formulaList := []formulaArg{newEmptyFormulaArg()} assert.Equal(t, formulaList, newListFormulaArg(formulaList).ToList()) } func TestCalcCompareFormulaArg(t *testing.T) { assert.Equal(t, compareFormulaArg(newEmptyFormulaArg(), newEmptyFormulaArg(), newNumberFormulaArg(matchModeMaxLess), false), criteriaEq) lhs := newListFormulaArg([]formulaArg{newEmptyFormulaArg()}) rhs := newListFormulaArg([]formulaArg{newEmptyFormulaArg(), newEmptyFormulaArg()}) assert.Equal(t, compareFormulaArg(lhs, rhs, newNumberFormulaArg(matchModeMaxLess), false), criteriaL) assert.Equal(t, compareFormulaArg(rhs, lhs, newNumberFormulaArg(matchModeMaxLess), false), criteriaG) lhs = newListFormulaArg([]formulaArg{newBoolFormulaArg(true)}) rhs = newListFormulaArg([]formulaArg{newBoolFormulaArg(true)}) assert.Equal(t, compareFormulaArg(lhs, rhs, newNumberFormulaArg(matchModeMaxLess), false), criteriaEq) assert.Equal(t, compareFormulaArg(formulaArg{Type: ArgUnknown}, formulaArg{Type: ArgUnknown}, newNumberFormulaArg(matchModeMaxLess), false), criteriaErr) } func TestCalcMatchPattern(t *testing.T) { assert.True(t, matchPattern("", "")) assert.True(t, matchPattern("file/*", "file/abc/bcd/def")) assert.True(t, matchPattern("*", "")) assert.False(t, matchPattern("?", "")) assert.False(t, matchPattern("file/?", "file/abc/bcd/def")) } func TestCalcTRANSPOSE(t *testing.T) { cellData := [][]interface{}{ {"a", "d"}, {"b", "e"}, {"c", "f"}, } formula := "=TRANSPOSE(A1:A3)" f := prepareCalcData(cellData) formulaType, ref := STCellFormulaTypeArray, "D1:F2" assert.NoError(t, f.SetCellFormula("Sheet1", "D1", formula, FormulaOpts{Ref: &ref, Type: &formulaType})) _, err := f.CalcCellValue("Sheet1", "D1") assert.NoError(t, err, formula) } func TestCalcVLOOKUP(t *testing.T) { cellData := [][]interface{}{ {nil, nil, nil, nil, nil, nil}, {nil, "Score", "Grade", nil, nil, nil}, {nil, 0, "F", nil, "Score", 85}, {nil, 60, "D", nil, "Grade"}, {nil, 70, "C", nil, nil, nil}, {nil, 80, "b", nil, nil, nil}, {nil, 90, "A", nil, nil, nil}, {nil, 85, "B", nil, nil, nil}, {nil, nil, nil, nil, nil, nil}, } f := prepareCalcData(cellData) calc := map[string]string{ "=VLOOKUP(F3,B3:C8,2)": "b", "=VLOOKUP(F3,B3:C8,2,TRUE)": "b", "=VLOOKUP(F3,B3:C8,2,FALSE)": "B", } for formula, expected := range calc { assert.NoError(t, f.SetCellFormula("Sheet1", "F4", formula)) result, err := f.CalcCellValue("Sheet1", "F4") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=VLOOKUP(INT(1),C3:C3,1,FALSE)": "VLOOKUP no result found", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "F4", formula)) result, err := f.CalcCellValue("Sheet1", "F4") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcBoolean(t *testing.T) { cellData := [][]interface{}{{0.5, "TRUE", -0.5, "FALSE", true}} f := prepareCalcData(cellData) formulaList := map[string]string{ "=AVERAGEA(A1:C1)": "0.333333333333333", "=MAX(0.5,B1)": "0.5", "=MAX(A1:B1)": "0.5", "=MAXA(A1:B1)": "0.5", "=MAXA(A1:E1)": "1", "=MAXA(0.5,B1)": "1", "=MIN(-0.5,D1)": "-0.5", "=MIN(C1:D1)": "-0.5", "=MINA(C1:D1)": "-0.5", "=MINA(-0.5,D1)": "-0.5", "=STDEV(A1:C1)": "0.707106781186548", "=STDEV(A1,B1,C1)": "0.707106781186548", "=STDEVA(A1:C1,B1)": "0.707106781186548", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "B10", formula)) result, err := f.CalcCellValue("Sheet1", "B10") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestCalcMAXMIN(t *testing.T) { cellData := [][]interface{}{{"1"}, {"2"}, {true}} f := prepareCalcData(cellData) formulaList := map[string]string{ "=MAX(A1:A3)": "0", "=MAXA(A1:A3)": "1", "=MIN(A1:A3)": "0", "=MINA(A1:A3)": "1", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "B1", formula)) result, err := f.CalcCellValue("Sheet1", "B1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestCalcAVERAGEIF(t *testing.T) { f := prepareCalcData([][]interface{}{ {"Monday", 500}, {"Tuesday", 50}, {"Thursday", 100}, {"Friday", 100}, {"Thursday", 200}, {5, 300}, {2, 200}, {3, 100}, {4, 50}, {5, 100}, {1, 50}, {"TRUE", 200}, {"TRUE", 250}, {"FALSE", 50}, }) for formula, expected := range map[string]string{ "=AVERAGEIF(A1:A14,\"Thursday\",B1:B14)": "150", "=AVERAGEIF(A1:A14,5,B1:B14)": "200", "=AVERAGEIF(A1:A14,\">2\",B1:B14)": "137.5", "=AVERAGEIF(A1:A14,TRUE,B1:B14)": "225", "=AVERAGEIF(A1:A14,\"<>TRUE\",B1:B14)": "150", } { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestCalcCOVAR(t *testing.T) { cellData := [][]interface{}{ {"array1", "array2"}, {2, 22.9}, {7, 33.49}, {8, 34.5}, {3, 27.61}, {4, 19.5}, {1, 10.11}, {6, 37.9}, {5, 31.08}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=COVAR(A1:A9,B1:B9)": "16.633125", "=COVAR(A2:A9,B2:B9)": "16.633125", "=COVARIANCE.P(A1:A9,B1:B9)": "16.633125", "=COVARIANCE.P(A2:A9,B2:B9)": "16.633125", "=COVARIANCE.S(A1:A9,B1:B9)": "19.0092857142857", "=COVARIANCE.S(A2:A9,B2:B9)": "19.0092857142857", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=COVAR()": "COVAR requires 2 arguments", "=COVAR(A2:A9,B3:B3)": "#N/A", "=COVARIANCE.P()": "COVARIANCE.P requires 2 arguments", "=COVARIANCE.P(A2:A9,B3:B3)": "#N/A", "=COVARIANCE.S()": "COVARIANCE.S requires 2 arguments", "=COVARIANCE.S(A2:A9,B3:B3)": "#N/A", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcDatabase(t *testing.T) { cellData := [][]interface{}{ {"Tree", "Height", "Age", "Yield", "Profit", "Height"}, {nil, ">1000%", nil, nil, nil, "<16"}, {}, {"Tree", "Height", "Age", "Yield", "Profit"}, {"Apple", 18, 20, 14, 105}, {"Pear", 12, 12, 10, 96}, {"Cherry", 13, 14, 9, 105}, {"Apple", 14, nil, 10, 75}, {"Pear", 9, 8, 8, 77}, {"Apple", 12, 11, 6, 45}, } f := prepareCalcData(cellData) assert.NoError(t, f.SetCellFormula("Sheet1", "A2", "=\"=Apple\"")) assert.NoError(t, f.SetCellFormula("Sheet1", "A3", "=\"=Pear\"")) assert.NoError(t, f.SetCellFormula("Sheet1", "C8", "=NA()")) formulaList := map[string]string{ "=DAVERAGE(A4:E10,\"Profit\",A1:F3)": "73.25", "=DCOUNT(A4:E10,\"Age\",A1:F2)": "1", "=DCOUNT(A4:E10,,A1:F2)": "2", "=DCOUNT(A4:E10,\"Profit\",A1:F2)": "2", "=DCOUNT(A4:E10,\"Tree\",A1:F2)": "0", "=DCOUNT(A4:E10,\"Age\",A2:F3)": "0", "=DCOUNTA(A4:E10,\"Age\",A1:F2)": "1", "=DCOUNTA(A4:E10,,A1:F2)": "2", "=DCOUNTA(A4:E10,\"Profit\",A1:F2)": "2", "=DCOUNTA(A4:E10,\"Tree\",A1:F2)": "2", "=DCOUNTA(A4:E10,\"Age\",A2:F3)": "0", "=DGET(A4:E6,\"Profit\",A1:F3)": "96", "=DMAX(A4:E10,\"Tree\",A1:F3)": "0", "=DMAX(A4:E10,\"Profit\",A1:F3)": "96", "=DMIN(A4:E10,\"Tree\",A1:F3)": "0", "=DMIN(A4:E10,\"Profit\",A1:F3)": "45", "=DPRODUCT(A4:E10,\"Profit\",A1:F3)": "24948000", "=DSTDEV(A4:E10,\"Profit\",A1:F3)": "21.077238908358", "=DSTDEVP(A4:E10,\"Profit\",A1:F3)": "18.2534243362718", "=DSUM(A4:E10,\"Profit\",A1:F3)": "293", "=DVAR(A4:E10,\"Profit\",A1:F3)": "444.25", "=DVARP(A4:E10,\"Profit\",A1:F3)": "333.1875", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "A11", formula)) result, err := f.CalcCellValue("Sheet1", "A11") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=DAVERAGE()": "DAVERAGE requires 3 arguments", "=DAVERAGE(A4:E10,\"x\",A1:F3)": "#VALUE!", "=DAVERAGE(A4:E10,\"Tree\",A1:F3)": "#DIV/0!", "=DCOUNT()": "DCOUNT requires at least 2 arguments", "=DCOUNT(A4:E10,\"Age\",A1:F2,\"\")": "DCOUNT allows at most 3 arguments", "=DCOUNT(A4,\"Age\",A1:F2)": "#VALUE!", "=DCOUNT(A4:E10,NA(),A1:F2)": "#VALUE!", "=DCOUNT(A4:E4,,A1:F2)": "#VALUE!", "=DCOUNT(A4:E10,\"x\",A2:F3)": "#VALUE!", "=DCOUNTA()": "DCOUNTA requires at least 2 arguments", "=DCOUNTA(A4:E10,\"Age\",A1:F2,\"\")": "DCOUNTA allows at most 3 arguments", "=DCOUNTA(A4,\"Age\",A1:F2)": "#VALUE!", "=DCOUNTA(A4:E10,NA(),A1:F2)": "#VALUE!", "=DCOUNTA(A4:E4,,A1:F2)": "#VALUE!", "=DCOUNTA(A4:E10,\"x\",A2:F3)": "#VALUE!", "=DGET()": "DGET requires 3 arguments", "=DGET(A4:E5,\"Profit\",A1:F3)": "#VALUE!", "=DGET(A4:E10,\"Profit\",A1:F3)": "#NUM!", "=DMAX()": "DMAX requires 3 arguments", "=DMAX(A4:E10,\"x\",A1:F3)": "#VALUE!", "=DMIN()": "DMIN requires 3 arguments", "=DMIN(A4:E10,\"x\",A1:F3)": "#VALUE!", "=DPRODUCT()": "DPRODUCT requires 3 arguments", "=DPRODUCT(A4:E10,\"x\",A1:F3)": "#VALUE!", "=DSTDEV()": "DSTDEV requires 3 arguments", "=DSTDEV(A4:E10,\"x\",A1:F3)": "#VALUE!", "=DSTDEVP()": "DSTDEVP requires 3 arguments", "=DSTDEVP(A4:E10,\"x\",A1:F3)": "#VALUE!", "=DSUM()": "DSUM requires 3 arguments", "=DSUM(A4:E10,\"x\",A1:F3)": "#VALUE!", "=DVAR()": "DVAR requires 3 arguments", "=DVAR(A4:E10,\"x\",A1:F3)": "#VALUE!", "=DVARP()": "DVARP requires 3 arguments", "=DVARP(A4:E10,\"x\",A1:F3)": "#VALUE!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "A11", formula)) result, err := f.CalcCellValue("Sheet1", "A11") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcFORMULATEXT(t *testing.T) { f, formulaText := NewFile(), "=SUM(B1:C1)" assert.NoError(t, f.SetCellFormula("Sheet1", "A1", formulaText)) for _, formula := range []string{"=FORMULATEXT(A1)", "=FORMULATEXT(A:A)", "=FORMULATEXT(A1:B1)"} { assert.NoError(t, f.SetCellFormula("Sheet1", "D1", formula), formula) result, err := f.CalcCellValue("Sheet1", "D1") assert.NoError(t, err, formula) assert.Equal(t, formulaText, result, formula) } } func TestCalcGROWTHandTREND(t *testing.T) { cellData := [][]interface{}{ {"known_x's", "known_y's", 0, -1}, {1, 10, 1}, {2, 20, 1}, {3, 40}, {4, 80}, {}, {"new_x's", "new_y's"}, {5}, {6}, {7}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=GROWTH(A2:B2)": "1", "=GROWTH(B2:B5,A2:A5,A8:A10)": "160", "=GROWTH(B2:B5,A2:A5,A8:A10,FALSE)": "467.842838114059", "=GROWTH(A4:A5,A2:B3,A8:A10,FALSE)": "", "=GROWTH(A3:A5,A2:B4,A2:B3)": "2", "=GROWTH(A4:A5,A2:B3)": "", "=GROWTH(A2:B2,A2:B3)": "", "=GROWTH(A2:B2,A2:B3,A2:B3,FALSE)": "1.28402541668774", "=GROWTH(A2:B2,A4:B5,A4:B5,FALSE)": "1", "=GROWTH(A3:C3,A2:C3,A2:B3)": "2", "=TREND(A2:B2)": "1", "=TREND(B2:B5,A2:A5,A8:A10)": "95", "=TREND(B2:B5,A2:A5,A8:A10,FALSE)": "81.6666666666667", "=TREND(A4:A5,A2:B3,A8:A10,FALSE)": "", "=TREND(A4:A5,A2:B3,A2:B3,FALSE)": "1.5", "=TREND(A3:A5,A2:B4,A2:B3)": "2", "=TREND(A4:A5,A2:B3)": "", "=TREND(A2:B2,A2:B3)": "", "=TREND(A2:B2,A2:B3,A2:B3,FALSE)": "1", "=TREND(A2:B2,A4:B5,A4:B5,FALSE)": "1", "=TREND(A3:C3,A2:C3,A2:B3)": "2", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=GROWTH()": "GROWTH requires at least 1 argument", "=GROWTH(B2:B5,A2:A5,A8:A10,TRUE,0)": "GROWTH allows at most 4 arguments", "=GROWTH(A1:B1,A2:A5,A8:A10,TRUE)": "#VALUE!", "=GROWTH(B2:B5,A1:B1,A8:A10,TRUE)": "#VALUE!", "=GROWTH(B2:B5,A2:A5,A1:B1,TRUE)": "#VALUE!", "=GROWTH(B2:B5,A2:A5,A8:A10,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=GROWTH(A2:B3,A4:B4)": "#REF!", "=GROWTH(A4:B4,A2:A2)": "#REF!", "=GROWTH(A2:A2,A4:A5)": "#REF!", "=GROWTH(C1:C1,A2:A3)": "#VALUE!", "=GROWTH(D1:D1,A2:A3)": "#NUM!", "=GROWTH(A2:A3,C1:C1)": "#VALUE!", "=TREND()": "TREND requires at least 1 argument", "=TREND(B2:B5,A2:A5,A8:A10,TRUE,0)": "TREND allows at most 4 arguments", "=TREND(A1:B1,A2:A5,A8:A10,TRUE)": "#VALUE!", "=TREND(B2:B5,A1:B1,A8:A10,TRUE)": "#VALUE!", "=TREND(B2:B5,A2:A5,A1:B1,TRUE)": "#VALUE!", "=TREND(B2:B5,A2:A5,A8:A10,\"\")": "strconv.ParseBool: parsing \"\": invalid syntax", "=TREND(A2:B3,A4:B4)": "#REF!", "=TREND(A4:B4,A2:A2)": "#REF!", "=TREND(A2:A2,A4:A5)": "#REF!", "=TREND(C1:C1,A2:A3)": "#VALUE!", "=TREND(D1:D1,A2:A3)": "#REF!", "=TREND(A2:A3,C1:C1)": "#VALUE!", "=TREND(C1:C1,C1:C1)": "#VALUE!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcHLOOKUP(t *testing.T) { cellData := [][]interface{}{ {"Example Result Table"}, {nil, "A", "B", "C", "E", "F"}, {"Math", .58, .9, .67, .76, .8}, {"French", .61, .71, .59, .59, .76}, {"Physics", .75, .45, .39, .52, .69}, {"Biology", .39, .55, .77, .61, .45}, {}, {"Individual Student Score"}, {"Student:", "Biology Score:"}, {"E"}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=HLOOKUP(A10,A2:F6,5,FALSE)": "0.61", "=HLOOKUP(D3,D3:D3,1,TRUE)": "0.67", "=HLOOKUP(F3,D3:F3,1,TRUE)": "0.8", "=HLOOKUP(A5,A2:F2,1,TRUE)": "F", "=HLOOKUP(\"D\",A2:F2,1,TRUE)": "C", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "B10", formula)) result, err := f.CalcCellValue("Sheet1", "B10") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=HLOOKUP(INT(1),A3:A3,1,FALSE)": "HLOOKUP no result found", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "B10", formula)) result, err := f.CalcCellValue("Sheet1", "B10") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcCHITESTandCHISQdotTEST(t *testing.T) { cellData := [][]interface{}{ {nil, "Observed Frequencies", nil, nil, "Expected Frequencies"}, {nil, "men", "women", nil, nil, "men", "women"}, {"answer a", 33, 39, nil, "answer a", 26.25, 31.5}, {"answer b", 62, 62, nil, "answer b", 57.75, 61.95}, {"answer c", 10, 4, nil, "answer c", 21, 11.55}, {nil, -1, 0}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=CHITEST(B3:C5,F3:G5)": "0.000699102758787672", "=CHITEST(B3:C3,F3:G3)": "0.0605802098655177", "=CHITEST(B3:B4,F3:F4)": "0.152357748933542", "=CHITEST(B4:B6,F3:F5)": "7.07076951440726E-25", "=CHISQ.TEST(B3:C5,F3:G5)": "0.000699102758787672", "=CHISQ.TEST(B3:C3,F3:G3)": "0.0605802098655177", "=CHISQ.TEST(B3:B4,F3:F4)": "0.152357748933542", "=CHISQ.TEST(B4:B6,F3:F5)": "7.07076951440726E-25", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "I1", formula)) result, err := f.CalcCellValue("Sheet1", "I1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=CHITEST()": "CHITEST requires 2 arguments", "=CHITEST(B3:C5,F3:F4)": "#N/A", "=CHITEST(B3:B3,F3:F3)": "#N/A", "=CHITEST(F3:F5,B4:B6)": "#NUM!", "=CHITEST(F3:F5,C4:C6)": "#DIV/0!", "=CHISQ.TEST()": "CHISQ.TEST requires 2 arguments", "=CHISQ.TEST(B3:C5,F3:F4)": "#N/A", "=CHISQ.TEST(B3:B3,F3:F3)": "#N/A", "=CHISQ.TEST(F3:F5,B4:B6)": "#NUM!", "=CHISQ.TEST(F3:F5,C4:C6)": "#DIV/0!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "I1", formula)) result, err := f.CalcCellValue("Sheet1", "I1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcFTEST(t *testing.T) { cellData := [][]interface{}{ {"Group 1", "Group 2"}, {3.5, 9.2}, {4.7, 8.2}, {6.2, 7.3}, {4.9, 6.1}, {3.8, 5.4}, {5.5, 7.8}, {7.1, 5.9}, {6.7, 8.4}, {3.9, 7.7}, {4.6, 6.6}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=FTEST(A2:A11,B2:B11)": "0.95403555939413", "=F.TEST(A2:A11,B2:B11)": "0.95403555939413", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=FTEST()": "FTEST requires 2 arguments", "=FTEST(A2:A2,B2:B2)": "#DIV/0!", "=FTEST(A12:A14,B2:B4)": "#DIV/0!", "=FTEST(A2:A4,B2:B2)": "#DIV/0!", "=FTEST(A2:A4,B12:B14)": "#DIV/0!", "=F.TEST()": "F.TEST requires 2 arguments", "=F.TEST(A2:A2,B2:B2)": "#DIV/0!", "=F.TEST(A12:A14,B2:B4)": "#DIV/0!", "=F.TEST(A2:A4,B2:B2)": "#DIV/0!", "=F.TEST(A2:A4,B12:B14)": "#DIV/0!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcIRR(t *testing.T) { cellData := [][]interface{}{{-1}, {0.2}, {0.24}, {0.288}, {0.3456}, {0.4147}} f := prepareCalcData(cellData) formulaList := map[string]string{ "=IRR(A1:A4)": "-0.136189509034157", "=IRR(A1:A6)": "0.130575760006905", "=IRR(A1:A4,-0.1)": "-0.136189514994621", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "B1", formula)) result, err := f.CalcCellValue("Sheet1", "B1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=IRR()": "IRR requires at least 1 argument", "=IRR(0,0,0)": "IRR allows at most 2 arguments", "=IRR(0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=IRR(A2:A3)": "#NUM!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "B1", formula)) result, err := f.CalcCellValue("Sheet1", "B1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcMAXMINIFS(t *testing.T) { f := NewFile() for cell, row := range map[string][]interface{}{ "A1": {1, -math.MaxFloat64 - 1}, "A2": {2, -math.MaxFloat64 - 2}, "A3": {3, math.MaxFloat64 + 1}, "A4": {4, math.MaxFloat64 + 2}, } { assert.NoError(t, f.SetSheetRow("Sheet1", cell, &row)) } formulaList := map[string]string{ "=MAX(B1:B2)": "0", "=MAXIFS(B1:B2,A1:A2,\">0\")": "0", "=MIN(B3:B4)": "0", "=MINIFS(B3:B4,A3:A4,\"<0\")": "0", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestCalcMIRR(t *testing.T) { cellData := [][]interface{}{{-100}, {18}, {22.5}, {28}, {35.5}, {45}} f := prepareCalcData(cellData) formulaList := map[string]string{ "=MIRR(A1:A6,0.055,0.05)": "0.1000268752662", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "B1", formula)) result, err := f.CalcCellValue("Sheet1", "B1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=MIRR()": "MIRR requires 3 arguments", "=MIRR(A1:A5,\"\",0)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=MIRR(A1:A5,0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", "=MIRR(B1:B5,0,0)": "#DIV/0!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "B1", formula)) result, err := f.CalcCellValue("Sheet1", "B1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcSUMIFSAndAVERAGEIFS(t *testing.T) { cellData := [][]interface{}{ {"Quarter", "Area", "Sales Rep.", "Sales"}, {1, "North", "Jeff", 223000}, {1, "North", "Chris", 125000}, {1, "South", "Carol", 456000}, {2, "North", "Jeff", 322000}, {2, "North", "Chris", 340000}, {2, "South", "Carol", 198000}, {3, "North", "Jeff", 310000}, {3, "North", "Chris", 250000}, {3, "South", "Carol", 460000}, {4, "North", "Jeff", 261000}, {4, "North", "Chris", 389000}, {4, "South", "Carol", 305000}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=AVERAGEIFS(D2:D13,A2:A13,1,B2:B13,\"North\")": "174000", "=AVERAGEIFS(D2:D13,A2:A13,\">2\",C2:C13,\"Jeff\")": "285500", "=SUMIFS(D2:D13,A2:A13,1,B2:B13,\"North\")": "348000", "=SUMIFS(D2:D13,A2:A13,\">2\",C2:C13,\"Jeff\")": "571000", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "E1", formula)) result, err := f.CalcCellValue("Sheet1", "E1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=AVERAGEIFS()": "AVERAGEIFS requires at least 3 arguments", "=AVERAGEIFS(H1,\"\")": "AVERAGEIFS requires at least 3 arguments", "=AVERAGEIFS(H1,\"\",TRUE,1)": "#N/A", "=AVERAGEIFS(H1,\"\",TRUE)": "AVERAGEIF divide by zero", "=SUMIFS()": "SUMIFS requires at least 3 arguments", "=SUMIFS(D2:D13,A2:A13,1,B2:B13)": "#N/A", "=SUMIFS(D20:D23,A2:A13,\">2\",C2:C13,\"Jeff\")": "#VALUE!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "E1", formula)) result, err := f.CalcCellValue("Sheet1", "E1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcXIRR(t *testing.T) { cellData := [][]interface{}{ {-100.00, "01/01/2016"}, {20.00, "04/01/2016"}, {40.00, "10/01/2016"}, {25.00, "02/01/2017"}, {8.00, "03/01/2017"}, {15.00, "06/01/2017"}, {-1e-10, "09/01/2017"}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=XIRR(A1:A4,B1:B4)": "-0.196743861298328", "=XIRR(A1:A6,B1:B6,0.5)": "0.0944390744445204", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=XIRR()": "XIRR requires 2 or 3 arguments", "=XIRR(A1:A4,B1:B4,-1)": "XIRR requires guess > -1", "=XIRR(\"\",B1:B4)": "#NUM!", "=XIRR(A1:A4,\"\")": "#NUM!", "=XIRR(A1:A4,B1:B4,\"\")": "#NUM!", "=XIRR(A2:A6,B2:B6)": "#NUM!", "=XIRR(A2:A7,B2:B7)": "#NUM!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcXLOOKUP(t *testing.T) { cellData := [][]interface{}{ {}, {nil, nil, "Quarter", "Gross Profit", "Net profit", "Profit %"}, {nil, nil, "Qtr1", nil, 19342, 29.30}, {}, {nil, "Income Statement", "Qtr1", "Qtr2", "Qtr3", "Qtr4", "Total"}, {nil, "Total sales", 50000, 78200, 89500, 91250, 308.95}, {nil, "Cost of sales", -25000, -42050, -59450, -60450, -186950}, {nil, "Gross Profit", 25000, 36150, 30050, 30800, 122000}, {}, {nil, "Depreciation", -899, -791, -202, -412, -2304}, {nil, "Interest", -513, -853, -150, -956, -2472}, {nil, "Earnings before Tax", 23588, 34506, 29698, 29432, 117224}, {}, {nil, "Tax", -4246, -6211, -5346, -5298, 21100}, {}, {nil, "Net profit", 19342, 28295, 24352, 24134, 96124}, {nil, "Profit %", 0.293, 0.278, 0.234, 0.276, 0.269}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=SUM(XLOOKUP($C3,$C5:$C5,$C6:$C17,NA(),0,2))": "87272.293", "=SUM(XLOOKUP($C3,$C5:$C5,$C6:$G6,NA(),0,-2))": "309258.95", "=SUM(XLOOKUP($C3,$C5:$C5,$C6:$C17,NA(),0,-2))": "87272.293", "=SUM(XLOOKUP($C3,$C5:$G5,$C6:$G17,NA(),0,2))": "87272.293", "=SUM(XLOOKUP(D2,$B6:$B17,$C6:$G17,NA(),0,2))": "244000", "=XLOOKUP(D2,$B6:$B17,C6:C17)": "25000", "=XLOOKUP(D2,$B6:$B17,XLOOKUP($C3,$C5:$G5,$C6:$G17))": "25000", "=XLOOKUP(\"*p*\",B2:B9,C2:C9,NA(),2)": "25000", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "D3", formula)) result, err := f.CalcCellValue("Sheet1", "D3") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=XLOOKUP()": "XLOOKUP requires at least 3 arguments", "=XLOOKUP($C3,$C5:$C5,$C6:$C17,NA(),0,2,1)": "XLOOKUP allows at most 6 arguments", "=XLOOKUP($C3,$C5,$C6,NA(),0,2)": "#N/A", "=XLOOKUP(\"?\",B2:B9,C2:C9,NA(),2)": "#N/A", "=XLOOKUP($C3,$C4:$D5,$C6:$C17,NA(),0,2)": "#VALUE!", "=XLOOKUP($C3,$C5:$C5,$C6:$G17,NA(),0,-2)": "#VALUE!", "=XLOOKUP($C3,$C5:$G5,$C6:$F7,NA(),0,2)": "#VALUE!", "=XLOOKUP(D2,$B6:$B17,$C6:$G16,NA(),0,2)": "#VALUE!", "=XLOOKUP(D2,$B6:$B17,$C6:$G17,NA(),3,2)": "#VALUE!", "=XLOOKUP(D2,$B6:$B17,$C6:$G17,NA(),0,0)": "#VALUE!", "=XLOOKUP(D2,$B6:$B17,$C6:$G17,NA(),\"\",2)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=XLOOKUP(D2,$B6:$B17,$C6:$G17,NA(),0,\"\")": "strconv.ParseFloat: parsing \"\": invalid syntax", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "D3", formula)) result, err := f.CalcCellValue("Sheet1", "D3") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } cellData = [][]interface{}{ {"Salesperson", "Item", "Amont"}, {"B", "Apples", 30, 25, 15, 50, 45, 18}, {"L", "Oranges", 25, "D3", "E3"}, {"C", "Grapes", 15}, {"L", "Lemons", 50}, {"L", "Oranges", 45}, {"C", "Peaches", 18}, {"B", "Pears", 40}, {"B", "Apples", 55}, } f = prepareCalcData(cellData) formulaList = map[string]string{ // Test match mode with partial match (wildcards) "=XLOOKUP(\"*p*\",B2:B9,C2:C9,NA(),2)": "30", // Test match mode with approximate match in vertical (next larger item) "=XLOOKUP(32,B2:B9,C2:C9,NA(),1)": "30", // Test match mode with approximate match in horizontal (next larger item) "=XLOOKUP(30,C2:F2,C3:F3,NA(),1)": "25", // Test match mode with approximate match in vertical (next smaller item) "=XLOOKUP(40,C2:C9,B2:B9,NA(),-1)": "Pears", // Test match mode with approximate match in horizontal (next smaller item) "=XLOOKUP(29,C2:F2,C3:F3,NA(),-1)": "D3", // Test search mode "=XLOOKUP(\"L\",A2:A9,C2:C9,NA(),0,1)": "25", "=XLOOKUP(\"L\",A2:A9,C2:C9,NA(),0,-1)": "45", "=XLOOKUP(\"L\",A2:A9,C2:C9,NA(),0,2)": "50", "=XLOOKUP(\"L\",A2:A9,C2:C9,NA(),0,-2)": "45", // Test match mode and search mode "=XLOOKUP(29,C2:H2,C3:H3,NA(),-1,-1)": "D3", "=XLOOKUP(29,C2:H2,C3:H3,NA(),-1,1)": "D3", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "D4", formula)) result, err := f.CalcCellValue("Sheet1", "D4") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError = map[string]string{ // Test match mode with exact match "=XLOOKUP(\"*p*\",B2:B9,C2:C9,NA(),0)": "#N/A", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "D3", formula)) result, err := f.CalcCellValue("Sheet1", "D3") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcXNPV(t *testing.T) { cellData := [][]interface{}{ {nil, 0.05}, {"01/01/2016", -10000, nil}, {"02/01/2016", 2000}, {"05/01/2016", 2400}, {"07/01/2016", 2900}, {"11/01/2016", 3500}, {"01/01/2017", 4100}, {}, {"02/01/2016"}, {"01/01/2016"}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=XNPV(B1,B2:B7,A2:A7)": "4447.93800944052", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=XNPV()": "XNPV requires 3 arguments", "=XNPV(\"\",B2:B7,A2:A7)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=XNPV(0,B2:B7,A2:A7)": "XNPV requires rate > 0", "=XNPV(B1,\"\",A2:A7)": "#NUM!", "=XNPV(B1,B2:B7,\"\")": "#NUM!", "=XNPV(B1,B2:B7,C2:C7)": "#NUM!", "=XNPV(B1,B2,A2)": "#NUM!", "=XNPV(B1,B2:B3,A2:A5)": "#NUM!", "=XNPV(B1,B2:B3,A9:A10)": "#VALUE!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcMATCH(t *testing.T) { f := NewFile() for cell, row := range map[string][]interface{}{ "A1": {"cccc", 7, 4, 16}, "A2": {"dddd", 2, 6, 11}, "A3": {"aaaa", 4, 7, 10}, "A4": {"bbbb", 1, 10, 7}, "A5": {"eeee", 8, 11, 6}, "A6": {nil, 11, 16, 4}, } { assert.NoError(t, f.SetSheetRow("Sheet1", cell, &row)) } formulaList := map[string]string{ "=MATCH(\"aaaa\",A1:A6,0)": "3", "=MATCH(\"*b\",A1:A5,0)": "4", "=MATCH(\"?eee\",A1:A5,0)": "5", "=MATCH(\"?*?e\",A1:A5,0)": "5", "=MATCH(\"aaaa\",A1:A6,1)": "3", "=MATCH(10,B1:B6)": "5", "=MATCH(8,C1:C6,1)": "3", "=MATCH(6,B1:B6,-1)": "1", "=MATCH(10,D1:D6,-1)": "3", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "E1", formula)) result, err := f.CalcCellValue("Sheet1", "E1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=MATCH(3,C1:C6,1)": "#N/A", "=MATCH(5,C1:C6,-1)": "#N/A", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "E1", formula)) result, err := f.CalcCellValue("Sheet1", "E1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } assert.Equal(t, newErrorFormulaArg(formulaErrorNA, formulaErrorNA), calcMatch(2, nil, []formulaArg{})) } func TestCalcISFORMULA(t *testing.T) { f := NewFile() assert.NoError(t, f.SetCellFormula("Sheet1", "B1", "=ISFORMULA(A1)")) for _, formula := range []string{"=NA()", "=SUM(A1:A3)"} { assert.NoError(t, f.SetCellFormula("Sheet1", "A1", formula)) result, err := f.CalcCellValue("Sheet1", "B1") assert.NoError(t, err, formula) assert.Equal(t, "TRUE", result, formula) } } func TestCalcMODE(t *testing.T) { cellData := [][]interface{}{ {1, 1}, {1, 1}, {2, 2}, {2, 2}, {3, 2}, {3}, {3}, {4}, {4}, {4}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=MODE(A1:A10)": "3", "=MODE(B1:B6)": "2", "=MODE.MULT(A1:A10)": "3", "=MODE.SNGL(A1:A10)": "3", "=MODE.SNGL(B1:B6)": "2", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=MODE()": "MODE requires at least 1 argument", "=MODE(0,\"\")": "#VALUE!", "=MODE(D1:D3)": "#N/A", "=MODE.MULT()": "MODE.MULT requires at least 1 argument", "=MODE.MULT(0,\"\")": "#VALUE!", "=MODE.MULT(D1:D3)": "#N/A", "=MODE.SNGL()": "MODE.SNGL requires at least 1 argument", "=MODE.SNGL(0,\"\")": "#VALUE!", "=MODE.SNGL(D1:D3)": "#N/A", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcPEARSON(t *testing.T) { cellData := [][]interface{}{ {"x", "y"}, {1, 10.11}, {2, 22.9}, {2, 27.61}, {3, 27.61}, {4, 11.15}, {5, 31.08}, {6, 37.9}, {7, 33.49}, {8, 21.05}, {9, 27.01}, {10, 45.78}, {11, 31.32}, {12, 50.57}, {13, 45.48}, {14, 40.94}, {15, 53.76}, {16, 36.18}, {17, 49.77}, {18, 55.66}, {19, 63.83}, {20, 63.6}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=PEARSON(A2:A22,B2:B22)": "0.864129542184994", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestCalcRSQ(t *testing.T) { cellData := [][]interface{}{ {"known_y's", "known_x's"}, {2, 22.9}, {7, 33.49}, {8, 34.5}, {3, 27.61}, {4, 19.5}, {1, 10.11}, {6, 37.9}, {5, 31.08}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=RSQ(A2:A9,B2:B9)": "0.711666290486784", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestCalcSLOP(t *testing.T) { cellData := [][]interface{}{ {"known_x's", "known_y's"}, {1, 3}, {2, 7}, {3, 17}, {4, 20}, {5, 20}, {6, 27}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=SLOPE(A2:A7,B2:B7)": "0.200826446280992", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestCalcSHEET(t *testing.T) { f := NewFile() _, err := f.NewSheet("Sheet2") assert.NoError(t, err) formulaList := map[string]string{ "=SHEET(\"Sheet2\")": "2", "=SHEET(Sheet2!A1)": "2", "=SHEET(Sheet2!A1:A2)": "2", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "A1", formula)) result, err := f.CalcCellValue("Sheet1", "A1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestCalcSHEETS(t *testing.T) { f := NewFile() _, err := f.NewSheet("Sheet2") assert.NoError(t, err) formulaList := map[string]string{ "=SHEETS(Sheet1!A1:B1)": "1", "=SHEETS(Sheet1!A1:Sheet1!A1)": "1", "=SHEETS(Sheet1!A1:Sheet2!A1)": "2", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "A1", formula)) result, err := f.CalcCellValue("Sheet1", "A1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestCalcSTEY(t *testing.T) { cellData := [][]interface{}{ {"known_x's", "known_y's"}, {1, 3}, {2, 7.9}, {3, 8}, {4, 9.2}, {4.5, 12}, {5, 10.5}, {6, 15}, {7, 15.5}, {8, 17}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=STEYX(B2:B11,A2:A11)": "1.20118634668221", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=STEYX()": "STEYX requires 2 arguments", "=STEYX(B2:B11,A1:A9)": "#N/A", "=STEYX(B2,A2)": "#DIV/0!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcTTEST(t *testing.T) { cellData := [][]interface{}{ {4, 8, nil, 1, 1}, {5, 3, nil, 1, 1}, {2, 7}, {5, 3}, {8, 5}, {9, 2}, {3, 2}, {2, 7}, {3, 9}, {8, 4}, {9, 4}, {5, 7}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=TTEST(A1:A12,B1:B12,1,1)": "0.44907068944428", "=TTEST(A1:A12,B1:B12,1,2)": "0.436717306029283", "=TTEST(A1:A12,B1:B12,1,3)": "0.436722015384755", "=TTEST(A1:A12,B1:B12,2,1)": "0.898141378888559", "=TTEST(A1:A12,B1:B12,2,2)": "0.873434612058567", "=TTEST(A1:A12,B1:B12,2,3)": "0.873444030769511", "=T.TEST(A1:A12,B1:B12,1,1)": "0.44907068944428", "=T.TEST(A1:A12,B1:B12,1,2)": "0.436717306029283", "=T.TEST(A1:A12,B1:B12,1,3)": "0.436722015384755", "=T.TEST(A1:A12,B1:B12,2,1)": "0.898141378888559", "=T.TEST(A1:A12,B1:B12,2,2)": "0.873434612058567", "=T.TEST(A1:A12,B1:B12,2,3)": "0.873444030769511", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=TTEST()": "TTEST requires 4 arguments", "=TTEST(\"\",B1:B12,1,1)": "#NUM!", "=TTEST(A1:A12,\"\",1,1)": "#NUM!", "=TTEST(A1:A12,B1:B12,\"\",1)": "#VALUE!", "=TTEST(A1:A12,B1:B12,1,\"\")": "#VALUE!", "=TTEST(A1:A12,B1:B12,0,1)": "#NUM!", "=TTEST(A1:A12,B1:B12,1,0)": "#NUM!", "=TTEST(A1:A2,B1:B1,1,1)": "#N/A", "=TTEST(A13:A14,B13:B14,1,1)": "#NUM!", "=TTEST(A12:A13,B12:B13,1,1)": "#DIV/0!", "=TTEST(A13:A14,B13:B14,1,2)": "#NUM!", "=TTEST(D1:D4,E1:E4,1,3)": "#NUM!", "=T.TEST()": "T.TEST requires 4 arguments", "=T.TEST(\"\",B1:B12,1,1)": "#NUM!", "=T.TEST(A1:A12,\"\",1,1)": "#NUM!", "=T.TEST(A1:A12,B1:B12,\"\",1)": "#VALUE!", "=T.TEST(A1:A12,B1:B12,1,\"\")": "#VALUE!", "=T.TEST(A1:A12,B1:B12,0,1)": "#NUM!", "=T.TEST(A1:A12,B1:B12,1,0)": "#NUM!", "=T.TEST(A1:A2,B1:B1,1,1)": "#N/A", "=T.TEST(A13:A14,B13:B14,1,1)": "#NUM!", "=T.TEST(A12:A13,B12:B13,1,1)": "#DIV/0!", "=T.TEST(A13:A14,B13:B14,1,2)": "#NUM!", "=T.TEST(D1:D4,E1:E4,1,3)": "#NUM!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcNETWORKDAYSandWORKDAY(t *testing.T) { cellData := [][]interface{}{ {"05/01/2019", 43586, "text1"}, {"09/13/2019", 43721, "text2"}, {"10/01/2019", 43739}, {"12/25/2019", 43824}, {"01/01/2020", 43831}, {"01/01/2020", 43831}, {"01/24/2020", 43854}, {"04/04/2020", 43925}, {"05/01/2020", 43952}, {"06/25/2020", 44007}, } f := prepareCalcData(cellData) formulaList := map[string]string{ "=NETWORKDAYS(\"01/01/2020\",\"09/12/2020\")": "183", "=NETWORKDAYS(\"01/01/2020\",\"09/12/2020\",2)": "183", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\")": "183", "=NETWORKDAYS.INTL(\"09/12/2020\",\"01/01/2020\")": "-183", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",1)": "183", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",2)": "184", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",3)": "184", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",4)": "183", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",5)": "182", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",6)": "182", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",7)": "182", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",11)": "220", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",12)": "220", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",13)": "220", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",14)": "219", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",15)": "219", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",16)": "219", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",17)": "219", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",1,A1:A12)": "178", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",1,B1:B12)": "178", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",1,C1:C2)": "183", "=WORKDAY(\"12/01/2015\",25)": "42374", "=WORKDAY(\"01/01/2020\",123,B1:B12)": "44006", "=WORKDAY.INTL(\"12/01/2015\",0)": "42339", "=WORKDAY.INTL(\"12/01/2015\",25)": "42374", "=WORKDAY.INTL(\"12/01/2015\",-25)": "42304", "=WORKDAY.INTL(\"12/01/2015\",25,1)": "42374", "=WORKDAY.INTL(\"12/01/2015\",25,2)": "42374", "=WORKDAY.INTL(\"12/01/2015\",25,3)": "42372", "=WORKDAY.INTL(\"12/01/2015\",25,4)": "42373", "=WORKDAY.INTL(\"12/01/2015\",25,5)": "42374", "=WORKDAY.INTL(\"12/01/2015\",25,6)": "42374", "=WORKDAY.INTL(\"12/01/2015\",25,7)": "42374", "=WORKDAY.INTL(\"12/01/2015\",25,11)": "42368", "=WORKDAY.INTL(\"12/01/2015\",25,12)": "42368", "=WORKDAY.INTL(\"12/01/2015\",25,13)": "42368", "=WORKDAY.INTL(\"12/01/2015\",25,14)": "42369", "=WORKDAY.INTL(\"12/01/2015\",25,15)": "42368", "=WORKDAY.INTL(\"12/01/2015\",25,16)": "42368", "=WORKDAY.INTL(\"12/01/2015\",25,17)": "42368", "=WORKDAY.INTL(\"12/01/2015\",25,\"0001100\")": "42374", "=WORKDAY.INTL(\"01/01/2020\",-123,4)": "43659", "=WORKDAY.INTL(\"01/01/2020\",123,4,44010)": "44002", "=WORKDAY.INTL(\"01/01/2020\",-123,4,43640)": "43659", "=WORKDAY.INTL(\"01/01/2020\",-123,4,43660)": "43658", "=WORKDAY.INTL(\"01/01/2020\",-123,7,43660)": "43657", "=WORKDAY.INTL(\"01/01/2020\",123,4,A1:A12)": "44008", "=WORKDAY.INTL(\"01/01/2020\",123,4,B1:B12)": "44008", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } calcError := map[string]string{ "=NETWORKDAYS()": "NETWORKDAYS requires at least 2 arguments", "=NETWORKDAYS(\"01/01/2020\",\"09/12/2020\",2,\"\")": "NETWORKDAYS requires at most 3 arguments", "=NETWORKDAYS(\"\",\"09/12/2020\",2)": "#VALUE!", "=NETWORKDAYS(\"01/01/2020\",\"\",2)": "#VALUE!", "=NETWORKDAYS.INTL()": "NETWORKDAYS.INTL requires at least 2 arguments", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",4,A1:A12,\"\")": "NETWORKDAYS.INTL requires at most 4 arguments", "=NETWORKDAYS.INTL(\"01/01/2020\",\"January 25, 100\",4)": "#VALUE!", "=NETWORKDAYS.INTL(\"\",123,4,B1:B12)": "#VALUE!", "=NETWORKDAYS.INTL(\"01/01/2020\",123,\"000000x\")": "#VALUE!", "=NETWORKDAYS.INTL(\"01/01/2020\",123,\"0000002\")": "#VALUE!", "=NETWORKDAYS.INTL(\"January 25, 100\",123)": "#VALUE!", "=NETWORKDAYS.INTL(\"01/01/2020\",\"09/12/2020\",8)": "#VALUE!", "=NETWORKDAYS.INTL(-1,123)": "#NUM!", "=WORKDAY()": "WORKDAY requires at least 2 arguments", "=WORKDAY(\"01/01/2020\",123,A1:A12,\"\")": "WORKDAY requires at most 3 arguments", "=WORKDAY(\"01/01/2020\",\"\",B1:B12)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=WORKDAY(\"\",123,B1:B12)": "#VALUE!", "=WORKDAY(\"January 25, 100\",123)": "#VALUE!", "=WORKDAY(-1,123)": "#NUM!", "=WORKDAY.INTL()": "WORKDAY.INTL requires at least 2 arguments", "=WORKDAY.INTL(\"01/01/2020\",123,4,A1:A12,\"\")": "WORKDAY.INTL requires at most 4 arguments", "=WORKDAY.INTL(\"01/01/2020\",\"\",4,B1:B12)": "strconv.ParseFloat: parsing \"\": invalid syntax", "=WORKDAY.INTL(\"\",123,4,B1:B12)": "#VALUE!", "=WORKDAY.INTL(\"01/01/2020\",123,\"\",B1:B12)": "#VALUE!", "=WORKDAY.INTL(\"01/01/2020\",123,\"000000x\")": "#VALUE!", "=WORKDAY.INTL(\"01/01/2020\",123,\"0000002\")": "#VALUE!", "=WORKDAY.INTL(\"January 25, 100\",123)": "#VALUE!", "=WORKDAY.INTL(-1,123)": "#NUM!", } for formula, expected := range calcError { assert.NoError(t, f.SetCellFormula("Sheet1", "C1", formula)) result, err := f.CalcCellValue("Sheet1", "C1") assert.EqualError(t, err, expected, formula) assert.Equal(t, "", result, formula) } } func TestCalcZTEST(t *testing.T) { f := NewFile() assert.NoError(t, f.SetSheetRow("Sheet1", "A1", &[]int{4, 5, 2, 5, 8, 9, 3, 2, 3, 8, 9, 5})) formulaList := map[string]string{ "=Z.TEST(A1:L1,5)": "0.371103278558538", "=Z.TEST(A1:L1,6)": "0.838129187019751", "=Z.TEST(A1:L1,5,1)": "0.193238115385616", "=ZTEST(A1:L1,5)": "0.371103278558538", "=ZTEST(A1:L1,6)": "0.838129187019751", "=ZTEST(A1:L1,5,1)": "0.193238115385616", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "M1", formula)) result, err := f.CalcCellValue("Sheet1", "M1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestStrToDate(t *testing.T) { _, _, _, _, err := strToDate("") assert.Equal(t, formulaErrorVALUE, err.Error) } func TestGetYearDays(t *testing.T) { for _, data := range [][]int{{2021, 0, 360}, {2000, 1, 366}, {2021, 1, 365}, {2000, 3, 365}} { assert.Equal(t, data[2], getYearDays(data[0], data[1])) } } func TestCalcGetBetaHelperContFrac(t *testing.T) { assert.Equal(t, 1.0, getBetaHelperContFrac(1, 0, 1)) } func TestCalcGetBetaDistPDF(t *testing.T) { assert.Equal(t, 0.0, getBetaDistPDF(0.5, 2000, 3)) assert.Equal(t, 0.0, getBetaDistPDF(0, 1, 0)) } func TestCalcD1mach(t *testing.T) { assert.Equal(t, 0.0, d1mach(6)) } func TestCalcChebyshevInit(t *testing.T) { assert.Equal(t, 0, chebyshevInit(0, 0, nil)) assert.Equal(t, 0, chebyshevInit(1, 0, []float64{0})) } func TestCalcChebyshevEval(t *testing.T) { assert.True(t, math.IsNaN(chebyshevEval(0, 0, nil))) } func TestCalcLgammacor(t *testing.T) { assert.True(t, math.IsNaN(lgammacor(9))) assert.Equal(t, 4.930380657631324e-32, lgammacor(3.7451940309632633e+306)) assert.Equal(t, 8.333333333333334e-10, lgammacor(10e+07)) } func TestCalcLgammaerr(t *testing.T) { assert.True(t, math.IsNaN(logrelerr(-2))) } func TestCalcLogBeta(t *testing.T) { assert.True(t, math.IsNaN(logBeta(-1, -1))) assert.Equal(t, math.MaxFloat64, logBeta(0, 0)) } func TestCalcBetainvProbIterator(t *testing.T) { assert.Equal(t, 1.0, betainvProbIterator(1, 1, 1, 1, 1, 1, 1, 1, 1)) } func TestNestedFunctionsWithOperators(t *testing.T) { f := NewFile() formulaList := map[string]string{ `=LEN("KEEP")`: "4", `=LEN("REMOVEKEEP") - LEN("REMOVE")`: "4", `=RIGHT("REMOVEKEEP", 4)`: "KEEP", `=RIGHT("REMOVEKEEP", 10 - 6))`: "KEEP", `=RIGHT("REMOVEKEEP", LEN("REMOVEKEEP") - 6)`: "KEEP", `=RIGHT("REMOVEKEEP", LEN("REMOVEKEEP") - LEN("REMOV") - 1)`: "KEEP", `=RIGHT("REMOVEKEEP", 10 - LEN("REMOVE"))`: "KEEP", `=RIGHT("REMOVEKEEP", LEN("REMOVEKEEP") - LEN("REMOVE"))`: "KEEP", } for formula, expected := range formulaList { assert.NoError(t, f.SetCellFormula("Sheet1", "E1", formula)) result, err := f.CalcCellValue("Sheet1", "E1") assert.NoError(t, err, formula) assert.Equal(t, expected, result, formula) } } func TestFormulaArgToToken(t *testing.T) { assert.Equal(t, efp.Token{ TType: efp.TokenTypeOperand, TSubType: efp.TokenSubTypeLogical, TValue: "TRUE", }, formulaArgToToken(newBoolFormulaArg(true)), ) } func TestPrepareTrendGrowth(t *testing.T) { assert.Equal(t, [][]float64(nil), prepareTrendGrowthMtxX([][]float64{{0, 0}, {0, 0}})) assert.Equal(t, [][]float64(nil), prepareTrendGrowthMtxY(false, [][]float64{{0, 0}, {0, 0}})) info, err := prepareTrendGrowth(false, [][]float64{{0, 0}, {0, 0}}, [][]float64{{0, 0}, {0, 0}}) assert.Nil(t, info) assert.Equal(t, newErrorFormulaArg(formulaErrorNUM, formulaErrorNUM), err) } func TestCalcColRowQRDecomposition(t *testing.T) { assert.False(t, calcRowQRDecomposition([][]float64{{0, 0}, {0, 0}}, []float64{0, 0}, 1, 0)) assert.False(t, calcColQRDecomposition([][]float64{{0, 0}, {0, 0}}, []float64{0, 0}, 1, 0)) }