using namespace System; using namespace NETGeographicLib; int main(array ^/*args*/) { try { EllipticFunction^ ell = gcnew EllipticFunction(0.1, 1.0); // parameter m = 0.1 // See Abramowitz and Stegun, table 17.1 Console::WriteLine( String::Format( "{0} {1}", ell->K(), ell->E())); double phi = 20 * Math::Acos(-1.0) / 180.0;; // See Abramowitz and Stegun, table 17.6 with // alpha = asin(sqrt(m)) = 18.43 deg and phi = 20 deg Console::WriteLine( String::Format("{0} {1}", ell->E(phi), ell->E(Math::Sin(phi), Math::Cos(phi), Math::Sqrt(1 - ell->k2 * Math::Sin(phi) * Math::Sin(phi))) ) ); // See Carlson 1995, Sec 3. Console::WriteLine(String::Format("RF(1,2,0) = {0}", EllipticFunction::RF(1,2))); Console::WriteLine(String::Format("RF(2,3,4) = {0}", EllipticFunction::RF(2,3,4))); Console::WriteLine(String::Format("RC(0,1/4) = {0}", EllipticFunction::RC(0,0.25))); Console::WriteLine(String::Format("RC(9/4,2) = {0}", EllipticFunction::RC(2.25,2))); Console::WriteLine(String::Format("RC(1/4,-2) = {0}", EllipticFunction::RC(0.25,-2))); Console::WriteLine(String::Format("RJ(0,1,2,3) = {0}", EllipticFunction::RJ(0,1,2,3))); Console::WriteLine(String::Format("RJ(2,3,4,5) = {0}", EllipticFunction::RJ(2,3,4,5))); Console::WriteLine(String::Format("RD(0,2,1) = {0}", EllipticFunction::RD(0,2,1))); Console::WriteLine(String::Format("RD(2,3,4) = {0}", EllipticFunction::RD(2,3,4))); Console::WriteLine(String::Format("RG(0,16,16) = {0}", EllipticFunction::RG(16,16))); Console::WriteLine(String::Format("RG(2,3,4) = {0}", EllipticFunction::RG(2,3,4))); Console::WriteLine(String::Format("RG(0,0.0796,4) = {0}", EllipticFunction::RG(0.0796, 4))); } catch (GeographicErr^ e) { Console::WriteLine( String::Format( "Caught exception: {0}", e->Message ) ); return -1; } return 0; }