{***************************************************************************} { This source code was generated automatically by } { Pas file import tool for Scripter Studio } { } { Scripter Studio and Pas file import tool for Scripter Studio } { written by Automa / TMS Software } { copyright © 1997 - 2003 } { Email : info@tmssoftware.com } { Web : http://www.tmssoftware.com } {***************************************************************************} unit ap_Math; interface uses SysUtils, Types, Math, Variants, atScript; type TatMathLibrary = class(TatScripterLibrary) procedure __ArcCos(AMachine: TatVirtualMachine); procedure __ArcSin(AMachine: TatVirtualMachine); procedure __ArcTan2(AMachine: TatVirtualMachine); procedure __SinCos(AMachine: TatVirtualMachine); procedure __Tan(AMachine: TatVirtualMachine); procedure __Cotan(AMachine: TatVirtualMachine); procedure __Secant(AMachine: TatVirtualMachine); procedure __Cosecant(AMachine: TatVirtualMachine); procedure __Hypot(AMachine: TatVirtualMachine); procedure __RadToDeg(AMachine: TatVirtualMachine); procedure __RadToGrad(AMachine: TatVirtualMachine); procedure __RadToCycle(AMachine: TatVirtualMachine); procedure __DegToRad(AMachine: TatVirtualMachine); procedure __DegToGrad(AMachine: TatVirtualMachine); procedure __DegToCycle(AMachine: TatVirtualMachine); procedure __GradToRad(AMachine: TatVirtualMachine); procedure __GradToDeg(AMachine: TatVirtualMachine); procedure __GradToCycle(AMachine: TatVirtualMachine); procedure __CycleToRad(AMachine: TatVirtualMachine); procedure __CycleToDeg(AMachine: TatVirtualMachine); procedure __CycleToGrad(AMachine: TatVirtualMachine); procedure __Cot(AMachine: TatVirtualMachine); procedure __Sec(AMachine: TatVirtualMachine); procedure __Csc(AMachine: TatVirtualMachine); procedure __Cosh(AMachine: TatVirtualMachine); procedure __Sinh(AMachine: TatVirtualMachine); procedure __Tanh(AMachine: TatVirtualMachine); procedure __CotH(AMachine: TatVirtualMachine); procedure __SecH(AMachine: TatVirtualMachine); procedure __CscH(AMachine: TatVirtualMachine); procedure __ArcCot(AMachine: TatVirtualMachine); procedure __ArcSec(AMachine: TatVirtualMachine); procedure __ArcCsc(AMachine: TatVirtualMachine); procedure __ArcCosh(AMachine: TatVirtualMachine); procedure __ArcSinh(AMachine: TatVirtualMachine); procedure __ArcTanh(AMachine: TatVirtualMachine); procedure __ArcCotH(AMachine: TatVirtualMachine); procedure __ArcSecH(AMachine: TatVirtualMachine); procedure __ArcCscH(AMachine: TatVirtualMachine); procedure __LnXP1(AMachine: TatVirtualMachine); procedure __Log10(AMachine: TatVirtualMachine); procedure __Log2(AMachine: TatVirtualMachine); procedure __LogN(AMachine: TatVirtualMachine); procedure __IntPower(AMachine: TatVirtualMachine); procedure __Power(AMachine: TatVirtualMachine); procedure __Frexp(AMachine: TatVirtualMachine); procedure __Ldexp(AMachine: TatVirtualMachine); procedure __Ceil(AMachine: TatVirtualMachine); procedure __Floor(AMachine: TatVirtualMachine); procedure __RandG(AMachine: TatVirtualMachine); procedure __IsNan(AMachine: TatVirtualMachine); procedure __IsInfinite(AMachine: TatVirtualMachine); procedure __RandomRange(AMachine: TatVirtualMachine); procedure __DivMod(AMachine: TatVirtualMachine); procedure __RoundTo(AMachine: TatVirtualMachine); procedure __SimpleRoundTo(AMachine: TatVirtualMachine); procedure __DoubleDecliningBalance(AMachine: TatVirtualMachine); procedure __FutureValue(AMachine: TatVirtualMachine); procedure __InterestPayment(AMachine: TatVirtualMachine); procedure __InterestRate(AMachine: TatVirtualMachine); procedure __NumberOfPeriods(AMachine: TatVirtualMachine); procedure __Payment(AMachine: TatVirtualMachine); procedure __PeriodPayment(AMachine: TatVirtualMachine); procedure __PresentValue(AMachine: TatVirtualMachine); procedure __SLNDepreciation(AMachine: TatVirtualMachine); procedure __SYDDepreciation(AMachine: TatVirtualMachine); procedure __GetRoundMode(AMachine: TatVirtualMachine); procedure __SetRoundMode(AMachine: TatVirtualMachine); procedure __GetPrecisionMode(AMachine: TatVirtualMachine); procedure __SetPrecisionMode(AMachine: TatVirtualMachine); procedure __GetExceptionMask(AMachine: TatVirtualMachine); procedure __SetExceptionMask(AMachine: TatVirtualMachine); procedure __ClearExceptions(AMachine: TatVirtualMachine); procedure Init; override; class function LibraryName: string; override; end; EInvalidArgumentClass = class of EInvalidArgument; implementation {$WARNINGS OFF} procedure TatMathLibrary.__ArcCos(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcCos(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcSin(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcSin(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcTan2(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcTan2(GetInputArg(0),GetInputArg(1)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__SinCos(AMachine: TatVirtualMachine); var Param1: Extended; Param2: Extended; begin with AMachine do begin Param1 := GetInputArg(1); Param2 := GetInputArg(2); Math.SinCos(GetInputArg(0),Param1,Param2); SetInputArg(1,Param1); SetInputArg(2,Param2); end; end; procedure TatMathLibrary.__Tan(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Tan(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Cotan(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Cotan(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Secant(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Secant(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Cosecant(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Cosecant(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Hypot(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Hypot(GetInputArg(0),GetInputArg(1)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__RadToDeg(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.RadToDeg(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__RadToGrad(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.RadToGrad(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__RadToCycle(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.RadToCycle(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__DegToRad(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.DegToRad(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__DegToGrad(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.DegToGrad(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__DegToCycle(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.DegToCycle(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__GradToRad(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.GradToRad(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__GradToDeg(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.GradToDeg(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__GradToCycle(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.GradToCycle(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__CycleToRad(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.CycleToRad(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__CycleToDeg(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.CycleToDeg(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__CycleToGrad(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.CycleToGrad(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Cot(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Cot(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Sec(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Sec(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Csc(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Csc(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Cosh(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Cosh(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Sinh(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Sinh(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Tanh(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Tanh(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__CotH(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.CotH(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__SecH(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.SecH(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__CscH(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.CscH(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcCot(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcCot(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcSec(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcSec(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcCsc(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcCsc(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcCosh(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcCosh(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcSinh(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcSinh(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcTanh(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcTanh(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcCotH(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcCotH(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcSecH(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcSecH(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ArcCscH(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.ArcCscH(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__LnXP1(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.LnXP1(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Log10(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Log10(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Log2(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Log2(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__LogN(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.LogN(GetInputArg(0),GetInputArg(1)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__IntPower(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.IntPower(GetInputArg(0),VarToInteger(GetInputArg(1))); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Power(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Power(GetInputArg(0),GetInputArg(1)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Frexp(AMachine: TatVirtualMachine); var Param1: Extended; Param2: Integer; begin with AMachine do begin Param1 := GetInputArg(1); Param2 := VarToInteger(GetInputArg(2)); Math.Frexp(GetInputArg(0),Param1,Param2); SetInputArg(1,Param1); SetInputArg(2,Integer(Param2)); end; end; procedure TatMathLibrary.__Ldexp(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Ldexp(GetInputArg(0),VarToInteger(GetInputArg(1))); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Ceil(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Integer(Math.Ceil(GetInputArg(0))); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Floor(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Integer(Math.Floor(GetInputArg(0))); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__RandG(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.RandG(GetInputArg(0),GetInputArg(1)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__IsNan(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.IsNan(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__IsInfinite(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.IsInfinite(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__RandomRange(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Integer(Math.RandomRange(VarToInteger(GetInputArg(0)),VarToInteger(GetInputArg(1)))); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__DivMod(AMachine: TatVirtualMachine); var Param2: Word; Param3: Word; begin with AMachine do begin Param2 := VarToInteger(GetInputArg(2)); Param3 := VarToInteger(GetInputArg(3)); Math.DivMod(VarToInteger(GetInputArg(0)),VarToInteger(GetInputArg(1)),Param2,Param3); SetInputArg(2,Integer(Param2)); SetInputArg(3,Integer(Param3)); end; end; procedure TatMathLibrary.__RoundTo(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.RoundTo(GetInputArg(0),GetInputArg(1)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__SimpleRoundTo(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.SimpleRoundTo(GetInputArg(0),GetInputArg(1)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__DoubleDecliningBalance(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.DoubleDecliningBalance(GetInputArg(0),GetInputArg(1),VarToInteger(GetInputArg(2)),VarToInteger(GetInputArg(3))); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__FutureValue(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.FutureValue(GetInputArg(0),VarToInteger(GetInputArg(1)),GetInputArg(2),GetInputArg(3),GetInputArg(4)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__InterestPayment(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.InterestPayment(GetInputArg(0),VarToInteger(GetInputArg(1)),VarToInteger(GetInputArg(2)),GetInputArg(3),GetInputArg(4),GetInputArg(5)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__InterestRate(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.InterestRate(VarToInteger(GetInputArg(0)),GetInputArg(1),GetInputArg(2),GetInputArg(3),GetInputArg(4)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__NumberOfPeriods(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.NumberOfPeriods(GetInputArg(0),GetInputArg(1),GetInputArg(2),GetInputArg(3),GetInputArg(4)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__Payment(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.Payment(GetInputArg(0),VarToInteger(GetInputArg(1)),GetInputArg(2),GetInputArg(3),GetInputArg(4)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__PeriodPayment(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.PeriodPayment(GetInputArg(0),VarToInteger(GetInputArg(1)),VarToInteger(GetInputArg(2)),GetInputArg(3),GetInputArg(4),GetInputArg(5)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__PresentValue(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.PresentValue(GetInputArg(0),VarToInteger(GetInputArg(1)),GetInputArg(2),GetInputArg(3),GetInputArg(4)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__SLNDepreciation(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.SLNDepreciation(GetInputArg(0),GetInputArg(1),VarToInteger(GetInputArg(2))); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__SYDDepreciation(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.SYDDepreciation(GetInputArg(0),GetInputArg(1),VarToInteger(GetInputArg(2)),VarToInteger(GetInputArg(3))); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__GetRoundMode(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.GetRoundMode; ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__SetRoundMode(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.SetRoundMode(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__GetPrecisionMode(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.GetPrecisionMode; ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__SetPrecisionMode(AMachine: TatVirtualMachine); var AResult: variant; begin with AMachine do begin AResult := Math.SetPrecisionMode(GetInputArg(0)); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__GetExceptionMask(AMachine: TatVirtualMachine); var AResultSet: TFPUExceptionMask; AResult: variant; begin with AMachine do begin AResultSet := Math.GetExceptionMask; AResult := IntFromSet(AResultSet); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__SetExceptionMask(AMachine: TatVirtualMachine); var Param0: TFPUExceptionMask; AResultSet: TFPUExceptionMask; AResult: variant; begin with AMachine do begin IntToSet(Param0,VarToInteger(GetInputArg(0))); AResultSet := Math.SetExceptionMask(Param0); AResult := IntFromSet(AResultSet); ReturnOutputArg(AResult); end; end; procedure TatMathLibrary.__ClearExceptions(AMachine: TatVirtualMachine); begin with AMachine do begin Math.ClearExceptions; end; end; procedure TatMathLibrary.Init; begin With Scripter.DefineClass(EInvalidArgument) do begin end; With Scripter.DefineClass(ClassType) do begin DefineMethod('ArcCos',1,tkVariant,nil,__ArcCos,false); DefineMethod('ArcSin',1,tkVariant,nil,__ArcSin,false); DefineMethod('ArcTan2',2,tkVariant,nil,__ArcTan2,false); DefineMethod('SinCos',3,tkNone,nil,__SinCos,false).SetVarArgs([1,2]); DefineMethod('Tan',1,tkVariant,nil,__Tan,false); DefineMethod('Cotan',1,tkVariant,nil,__Cotan,false); DefineMethod('Secant',1,tkVariant,nil,__Secant,false); DefineMethod('Cosecant',1,tkVariant,nil,__Cosecant,false); DefineMethod('Hypot',2,tkVariant,nil,__Hypot,false); DefineMethod('RadToDeg',1,tkVariant,nil,__RadToDeg,false); DefineMethod('RadToGrad',1,tkVariant,nil,__RadToGrad,false); DefineMethod('RadToCycle',1,tkVariant,nil,__RadToCycle,false); DefineMethod('DegToRad',1,tkVariant,nil,__DegToRad,false); DefineMethod('DegToGrad',1,tkVariant,nil,__DegToGrad,false); DefineMethod('DegToCycle',1,tkVariant,nil,__DegToCycle,false); DefineMethod('GradToRad',1,tkVariant,nil,__GradToRad,false); DefineMethod('GradToDeg',1,tkVariant,nil,__GradToDeg,false); DefineMethod('GradToCycle',1,tkVariant,nil,__GradToCycle,false); DefineMethod('CycleToRad',1,tkVariant,nil,__CycleToRad,false); DefineMethod('CycleToDeg',1,tkVariant,nil,__CycleToDeg,false); DefineMethod('CycleToGrad',1,tkVariant,nil,__CycleToGrad,false); DefineMethod('Cot',1,tkVariant,nil,__Cot,false); DefineMethod('Sec',1,tkVariant,nil,__Sec,false); DefineMethod('Csc',1,tkVariant,nil,__Csc,false); DefineMethod('Cosh',1,tkVariant,nil,__Cosh,false); DefineMethod('Sinh',1,tkVariant,nil,__Sinh,false); DefineMethod('Tanh',1,tkVariant,nil,__Tanh,false); DefineMethod('CotH',1,tkVariant,nil,__CotH,false); DefineMethod('SecH',1,tkVariant,nil,__SecH,false); DefineMethod('CscH',1,tkVariant,nil,__CscH,false); DefineMethod('ArcCot',1,tkVariant,nil,__ArcCot,false); DefineMethod('ArcSec',1,tkVariant,nil,__ArcSec,false); DefineMethod('ArcCsc',1,tkVariant,nil,__ArcCsc,false); DefineMethod('ArcCosh',1,tkVariant,nil,__ArcCosh,false); DefineMethod('ArcSinh',1,tkVariant,nil,__ArcSinh,false); DefineMethod('ArcTanh',1,tkVariant,nil,__ArcTanh,false); DefineMethod('ArcCotH',1,tkVariant,nil,__ArcCotH,false); DefineMethod('ArcSecH',1,tkVariant,nil,__ArcSecH,false); DefineMethod('ArcCscH',1,tkVariant,nil,__ArcCscH,false); DefineMethod('LnXP1',1,tkVariant,nil,__LnXP1,false); DefineMethod('Log10',1,tkVariant,nil,__Log10,false); DefineMethod('Log2',1,tkVariant,nil,__Log2,false); DefineMethod('LogN',2,tkVariant,nil,__LogN,false); DefineMethod('IntPower',2,tkVariant,nil,__IntPower,false); DefineMethod('Power',2,tkVariant,nil,__Power,false); DefineMethod('Frexp',3,tkNone,nil,__Frexp,false).SetVarArgs([1,2]); DefineMethod('Ldexp',2,tkVariant,nil,__Ldexp,false); DefineMethod('Ceil',1,tkInteger,nil,__Ceil,false); DefineMethod('Floor',1,tkInteger,nil,__Floor,false); DefineMethod('RandG',2,tkVariant,nil,__RandG,false); DefineMethod('IsNan',1,tkVariant,nil,__IsNan,false); DefineMethod('IsInfinite',1,tkVariant,nil,__IsInfinite,false); DefineMethod('RandomRange',2,tkInteger,nil,__RandomRange,false); DefineMethod('DivMod',4,tkNone,nil,__DivMod,false).SetVarArgs([2,3]); DefineMethod('RoundTo',2,tkVariant,nil,__RoundTo,false); DefineMethod('SimpleRoundTo',2,tkVariant,nil,__SimpleRoundTo,false); DefineMethod('DoubleDecliningBalance',4,tkVariant,nil,__DoubleDecliningBalance,false); DefineMethod('FutureValue',5,tkVariant,nil,__FutureValue,false); DefineMethod('InterestPayment',6,tkVariant,nil,__InterestPayment,false); DefineMethod('InterestRate',5,tkVariant,nil,__InterestRate,false); DefineMethod('NumberOfPeriods',5,tkVariant,nil,__NumberOfPeriods,false); DefineMethod('Payment',5,tkVariant,nil,__Payment,false); DefineMethod('PeriodPayment',6,tkVariant,nil,__PeriodPayment,false); DefineMethod('PresentValue',5,tkVariant,nil,__PresentValue,false); DefineMethod('SLNDepreciation',3,tkVariant,nil,__SLNDepreciation,false); DefineMethod('SYDDepreciation',4,tkVariant,nil,__SYDDepreciation,false); DefineMethod('GetRoundMode',0,tkEnumeration,nil,__GetRoundMode,false); DefineMethod('SetRoundMode',1,tkEnumeration,nil,__SetRoundMode,false); DefineMethod('GetPrecisionMode',0,tkEnumeration,nil,__GetPrecisionMode,false); DefineMethod('SetPrecisionMode',1,tkEnumeration,nil,__SetPrecisionMode,false); DefineMethod('GetExceptionMask',0,tkInteger,nil,__GetExceptionMask,false); DefineMethod('SetExceptionMask',1,tkInteger,nil,__SetExceptionMask,false); DefineMethod('ClearExceptions',0,tkNone,nil,__ClearExceptions,false); AddConstant('ptEndOfPeriod',ptEndOfPeriod); AddConstant('ptStartOfPeriod',ptStartOfPeriod); AddConstant('rmNearest',rmNearest); AddConstant('rmDown',rmDown); AddConstant('rmUp',rmUp); AddConstant('rmTruncate',rmTruncate); AddConstant('pmSingle',pmSingle); AddConstant('pmReserved',pmReserved); AddConstant('pmDouble',pmDouble); AddConstant('pmExtended',pmExtended); AddConstant('exInvalidOp',exInvalidOp); AddConstant('exDenormalized',exDenormalized); AddConstant('exZeroDivide',exZeroDivide); AddConstant('exOverflow',exOverflow); AddConstant('exUnderflow',exUnderflow); AddConstant('exPrecision',exPrecision); AddConstant('MinSingle',MinSingle); AddConstant('MaxSingle',MaxSingle); AddConstant('MinDouble',MinDouble); AddConstant('MaxDouble',MaxDouble); AddConstant('NaN',NaN); AddConstant('Infinity',Infinity); AddConstant('NegInfinity',NegInfinity); AddConstant('NegativeValue',NegativeValue); AddConstant('ZeroValue',ZeroValue); AddConstant('PositiveValue',PositiveValue); end; end; class function TatMathLibrary.LibraryName: string; begin result := 'Math'; end; initialization RegisterScripterLibrary(TatMathLibrary, True); {$WARNINGS ON} end.