示例#1
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 [TestMethod] public void ArcTrig() =>
 TestSimplify(@"\arcsin\left(\arccos\left(\arctan\left(\arccot\left(x\right)\right)\right)\right)", MathS.Arcsin(MathS.Arccos(MathS.Arctan(MathS.Arccotan(x)))));
示例#2
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        public void TestArc4()
        {
            var func = MathS.Arctan(2 * x);

            AssertEqEntity(func.Derive(x).Simplify(), 2 / (1 + 4 * MathS.Sqr(x)));
        }
        /// <summary>
        /// Returns a set of possible roots of a function, e. g.
        /// sin(x) = a =>
        /// x = arcsin(a) + 2 pi n
        /// x = pi - arcsin(a) + 2 pi n
        /// </summary>
        /// <param name="func"></param>
        /// <param name="value"></param>
        /// <param name="x"></param>
        /// <returns></returns>
        public static Set InvertFunctionEntity(FunctionEntity func, Entity value, Entity x)
        {
            Entity a   = func.Children[0];
            Entity b   = func.Children.Count == 2 ? func.Children[1] : null;
            int    arg = func.Children.Count == 2 && func.Children[1].FindSubtree(x) != null ? 1 : 0;
            var    n   = Utils.FindNextIndex(func + value, "n");
            var    res = new Set();
            var    pi  = MathS.pi;

            Set GetNotNullEntites(Set set)
            {
                return(set.FiniteWhere(el => el.entType != Entity.EntType.NUMBER || el.GetValue().IsDefinite()));
            }

            switch (func.Name)
            {
            // Consider case when sin(sin(x)) where double-mention of n occures
            case "sinf":
            {
                // sin(x) = value => x = arcsin(value) + 2pi * n
                res.AddRange(GetNotNullEntites(FindInvertExpression(a, MathS.Arcsin(value) + 2 * pi * n, x)));
                // sin(x) = value => x = pi - arcsin(value) + 2pi * n
                res.AddRange(GetNotNullEntites(FindInvertExpression(a, pi - MathS.Arcsin(value) + 2 * pi * n, x)));
                return(res);
            }

            case "cosf":
            {
                // cos(x) = value => x = arccos(value) + 2pi * n
                res.AddRange(GetNotNullEntites(FindInvertExpression(a, MathS.Arccos(value) + 2 * pi * n, x)));
                // cos(x) = value => x = -arccos(value) + 2pi * n
                res.AddRange(GetNotNullEntites(FindInvertExpression(a, -MathS.Arccos(value) - 2 * pi * n, x)));
                return(res);
            }

            case "tanf":
            {
                var inverted = FindInvertExpression(a, MathS.Arctan(value) + pi * n, x);
                // tan(x) = value => x = arctan(value) + pi * n
                res.AddRange(GetNotNullEntites(inverted));
                return(res);
            }

            case "cotanf":
            {
                var inverted = FindInvertExpression(a, MathS.Arccotan(value) + pi * n, x);
                // cotan(x) = value => x = arccotan(value)
                res.AddRange(GetNotNullEntites(inverted));
                return(res);
            }

            case "arcsinf":
                // arcsin(x) = value => x = sin(value)
                if (EntityInBounds(value, ArcsinFrom, ArcsinTo))
                {
                    return(GetNotNullEntites(FindInvertExpression(a, MathS.Sin(value), x)));
                }
                else
                {
                    return(Empty);
                }

            case "arccosf":
                // arccos(x) = value => x = cos(value)
                if (EntityInBounds(value, ArccosFrom, ArccosTo))
                {
                    return(GetNotNullEntites(FindInvertExpression(a, MathS.Cos(value), x)));
                }
                else
                {
                    return(Empty);
                }

            case "arctanf":
                // arctan(x) = value => x = tan(value)
                return(GetNotNullEntites(FindInvertExpression(a, MathS.Tan(value), x)));

            case "arccotanf":
                // arccotan(x) = value => x = cotan(value)
                return(GetNotNullEntites(FindInvertExpression(a, MathS.Cotan(value), x)));

            case "logf":
                if (arg != 0)
                {
                    // log(x, a) = value => x = a ^ value
                    return(GetNotNullEntites(FindInvertExpression(b, MathS.Pow(a, value), x)));
                }
                else
                {
                    // log(a, x) = value => a = x ^ value => x = a ^ (1 / value)
                    return(GetNotNullEntites(FindInvertExpression(a, MathS.Pow(b, 1 / value), x)));
                }

            default:
                throw new SysException("Unknown function");
            }
        }
示例#4
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        public void TestPatt9()
        {
            var expr = MathS.Arccotan(x * 3) + MathS.Arctan(x * 6);

            Assert.IsTrue(expr.Simplify() == MathS.Arccotan(3 * x) + MathS.Arctan(6 * x));
        }
示例#5
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        public void TestPatt8()
        {
            var expr = MathS.Arccotan(x * 3) + MathS.Arctan(x * 3);

            Assert.IsTrue(expr.Simplify() == 0.5 * MathS.pi);
        }
示例#6
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        public void TestArc4()
        {
            var func = MathS.Arctan(2 * x);

            Assert.Equal(2 / (1 + 4 * MathS.Sqr(x)), func.Differentiate(x).Simplify());
        }
示例#7
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        public void TestArc4()
        {
            var func = MathS.Arctan(2 * x);

            Assert.IsTrue(func.Derive(x).Simplify() == 2 / (1 + 4 * MathS.Sqr(x)));
        }