File: overload_template_runme.java

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import overload_template.*;

public class overload_template_runme {

  static {
    try {
	System.loadLibrary("overload_template");
    } catch (UnsatisfiedLinkError e) {
      System.err.println("Native code library failed to load. See the chapter on Dynamic Linking Problems in the SWIG Java documentation for help.\n" + e);
      System.exit(1);
    }
  }

  public static void main(String argv[]) {
    int f = overload_template.foo();

    int a = overload_template.maximum(3,4);
    double b = overload_template.maximum(3.4,5.2);

    // mix 1
    if (overload_template.mix1("hi") != 101)
      throw new RuntimeException ("mix1(const char*)");

    if (overload_template.mix1(1.0, 1.0) != 102)
      throw new RuntimeException ("mix1(double, const double &)");

    if (overload_template.mix1(1.0) != 103)
      throw new RuntimeException ("mix1(double)");

    // mix 2
    if (overload_template.mix2("hi") != 101)
      throw new RuntimeException ("mix2(const char*)");

    if (overload_template.mix2(1.0, 1.0) != 102)
      throw new RuntimeException ("mix2(double, const double &)");

    if (overload_template.mix2(1.0) != 103)
      throw new RuntimeException ("mix2(double)");

    // mix 3
    if (overload_template.mix3("hi") != 101)
      throw new RuntimeException ("mix3(const char*)");

    if (overload_template.mix3(1.0, 1.0) != 102)
      throw new RuntimeException ("mix3(double, const double &)");

    if (overload_template.mix3(1.0) != 103)
      throw new RuntimeException ("mix3(double)");

    // Combination 1
    if (overload_template.overtparams1(100) != 10)
      throw new RuntimeException ("overtparams1(int)");

    if (overload_template.overtparams1(100.0, 100) != 20)
      throw new RuntimeException ("overtparams1(double, int)");

    // Combination 2
    if (overload_template.overtparams2(100.0, 100) != 40)
      throw new RuntimeException ("overtparams2(double, int)");

    // Combination 3
    if (overload_template.overloaded() != 60)
      throw new RuntimeException ("overloaded()");

    if (overload_template.overloaded(100.0, 100) != 70)
      throw new RuntimeException ("overloaded(double, int)");

    // Combination 4
    if (overload_template.overloadedagain("hello") != 80)
      throw new RuntimeException ("overloadedagain(const char *)");

    if (overload_template.overloadedagain() != 90)
      throw new RuntimeException ("overloadedagain(double)");

    // specializations
    if (overload_template.specialization(10) != 202)
      throw new RuntimeException ("specialization(int)");

    if (overload_template.specialization(10.0) != 203)
      throw new RuntimeException ("specialization(double)");

    if (overload_template.specialization(10, 10) != 204)
      throw new RuntimeException ("specialization(int, int)");

    if (overload_template.specialization(10.0, 10.0) != 205)
      throw new RuntimeException ("specialization(double, double)");

    if (overload_template.specialization("hi", "hi") != 201)
      throw new RuntimeException ("specialization(const char *, const char *)");


    // simple specialization
    overload_template.xyz();
    overload_template.xyz_int();
    overload_template.xyz_double();


    // a bit of everything
    if (overload_template.overload("hi") != 0)
      throw new RuntimeException ("overload()");

    if (overload_template.overload(1) != 10)
      throw new RuntimeException ("overload(int t)");

    if (overload_template.overload(1, 1) != 20)
      throw new RuntimeException ("overload(int t, const int &)");

    if (overload_template.overload(1, "hello") != 30)
      throw new RuntimeException ("overload(int t, const char *)");

    Klass k = new Klass();
    if (overload_template.overload(k) != 10)
      throw new RuntimeException ("overload(Klass t)");

    if (overload_template.overload(k, k) != 20)
      throw new RuntimeException ("overload(Klass t, const Klass &)");

    if (overload_template.overload(k, "hello") != 30)
      throw new RuntimeException ("overload(Klass t, const char *)");

    if (overload_template.overload(10.0, "hi") != 40)
      throw new RuntimeException ("overload(double t, const char *)");

    if (overload_template.overload() != 50)
      throw new RuntimeException ("overload(const char *)");


    // everything put in a namespace
    if (overload_template.nsoverload("hi") != 1000)
      throw new RuntimeException ("nsoverload()");

    if (overload_template.nsoverload(1) != 1010)
      throw new RuntimeException ("nsoverload(int t)");

    if (overload_template.nsoverload(1, 1) != 1020)
      throw new RuntimeException ("nsoverload(int t, const int &)");

    if (overload_template.nsoverload(1, "hello") != 1030)
      throw new RuntimeException ("nsoverload(int t, const char *)");

    if (overload_template.nsoverload(k) != 1010)
      throw new RuntimeException ("nsoverload(Klass t)");

    if (overload_template.nsoverload(k, k) != 1020)
      throw new RuntimeException ("nsoverload(Klass t, const Klass &)");

    if (overload_template.nsoverload(k, "hello") != 1030)
      throw new RuntimeException ("nsoverload(Klass t, const char *)");

    if (overload_template.nsoverload(10.0, "hi") != 1040)
      throw new RuntimeException ("nsoverload(double t, const char *)");

    if (overload_template.nsoverload() != 1050)
      throw new RuntimeException ("nsoverload(const char *)");

  }
}