/** * This test demonstrates director classes when the types are classes. Shown are * virtual function calls which use classes passed by * - Value * - Reference * - Pointer * as both parameters and return values * * The test also demonstrates directors used with: * - method overloading * - default parameters * * Note: Methods with default parameters that call up from C++ cannot call the * overloaded D methods, see DefaultParms method. * Expected output if PrintDebug enabled: * ------------ Start ------------ * Base - Val(444.555) * Base - Ref(444.555) * Base - Ptr(444.555) * Base - FullyOverloaded(int 10) * Base - FullyOverloaded(bool 1) * Base - SemiOverloaded(int -678) * Base - SemiOverloaded(bool 1) * Base - DefaultParms(10, 2.2) * Base - DefaultParms(10, 1.1) * -------------------------------- * Derived - Val(444.555) * Derived - Ref(444.555) * Derived - Ptr(444.555) * Derived - FullyOverloaded(int 10) * Derived - FullyOverloaded(bool 1) * Derived - SemiOverloaded(int -678) * Base - SemiOverloaded(bool 1) * Derived - DefaultParms(10, 2.2) * Derived - DefaultParms(10, 1.1) * -------------------------------- * DDerived - Val(444.555) * DDerived - Ref(444.555) * DDerived - Ptr(444.555) * DDerived - FullyOverloaded(int 10) * DDerived - FullyOverloaded(bool True) * DDerived - SemiOverloaded(-678) * Base - SemiOverloaded(bool 1) * DDerived - DefaultParms(10, 2.2) * DDerived - DefaultParms(10, 1.1) * ------------ Finish ------------ */ module director_classes_runme; import tango.io.Stdout; import tango.text.Util; import director_classes.director_classes; import director_classes.Caller; import director_classes.Base; import director_classes.Derived; import director_classes.DoubleHolder; void main() { if (PrintDebug) Stdout.formatln("------------ Start ------------ "); auto myCaller = new Caller(); // Test C++ base class. { scope myBase = new Base(100.0); makeCalls(myCaller, myBase); } if (PrintDebug) Stdout.formatln("--------------------------------"); // Test vanilla C++ wrapped derived class. { scope myBase = new Derived(200.0); makeCalls(myCaller, myBase); } if (PrintDebug) Stdout.formatln("--------------------------------"); // Test director / D derived class. { scope myBase = new DDerived(300.0); makeCalls(myCaller, myBase); } if (PrintDebug) Stdout.formatln("------------ Finish ------------ "); } void makeCalls(Caller myCaller, Base myBase) { char[] myBaseType = myBase.classinfo.name.split(".")[$-1]; myCaller.set(myBase); DoubleHolder dh = new DoubleHolder(444.555); // Class pointer, reference and pass by value tests if (myCaller.ValCall(dh).val != dh.val) throw new Exception("[1] failed"); if (myCaller.RefCall(dh).val != dh.val) throw new Exception("[2] failed"); if (myCaller.PtrCall(dh).val != dh.val) throw new Exception("[3] failed"); // Fully overloaded method test (all methods in base class are overloaded) if (myCaller.FullyOverloadedCall(10) != myBaseType ~ "::FullyOverloaded(int)") throw new Exception("[4] failed"); if (myCaller.FullyOverloadedCall(true) != myBaseType ~ "::FullyOverloaded(bool)") throw new Exception("[5] failed"); // Semi overloaded method test (some methods in base class are overloaded) if (myCaller.SemiOverloadedCall(-678) != myBaseType ~ "::SemiOverloaded(int)") throw new Exception("[6] failed"); if (myCaller.SemiOverloadedCall(true) != "Base" ~ "::SemiOverloaded(bool)") throw new Exception("[7] failed"); // Default parameters methods test if (myCaller.DefaultParmsCall(10, 2.2) != myBaseType ~ "::DefaultParms(int, double)") throw new Exception("[8] failed"); if (myBase.classinfo == DDerived.classinfo) { // special handling for D derived classes, there is no way to do this any other way if (myCaller.DefaultParmsCall(10) != myBaseType ~ "::DefaultParms(int, double)") throw new Exception("[9] failed"); } else { if (myCaller.DefaultParmsCall(10) != myBaseType ~ "::DefaultParms(int)") throw new Exception("[10] failed"); } myCaller.reset(); } public class DDerived : Base { public this(double dd) { super(dd); } public override DoubleHolder Val(DoubleHolder x) { if (PrintDebug) Stdout.formatln("DDerived - Val({0:d3})", x.val); return x; } public override DoubleHolder Ref(DoubleHolder x) { if (PrintDebug) Stdout.formatln("DDerived - Ref({0:d3})", x.val); return x; } public override DoubleHolder Ptr(DoubleHolder x) { if (PrintDebug) Stdout.formatln("DDerived - Ptr({0:d3})", x.val); return x; } public override char[] FullyOverloaded(int x) { if (PrintDebug) Stdout.formatln("DDerived - FullyOverloaded(int {0})", x); return "DDerived::FullyOverloaded(int)"; } public override char[] FullyOverloaded(bool x) { if (PrintDebug) Stdout.formatln("DDerived - FullyOverloaded(bool {0})", x); return "DDerived::FullyOverloaded(bool)"; } public override char[] SemiOverloaded(int x) { char[] ret = "DDerived::SemiOverloaded(int)"; if (PrintDebug) Stdout.formatln("DDerived - SemiOverloaded({0})", x); return ret; } alias Base.SemiOverloaded SemiOverloaded; // Alias in SemiOverloaded(bool x). public override char[] DefaultParms(int x, double y) { char[] ret = "DDerived::DefaultParms(int, double)"; if (PrintDebug) Stdout.formatln("DDerived - DefaultParms({0}, {1:d1})", x, y); return ret; } // This method will never be called from C++ code because the two-parameter // DefaultParams() has a default value for the second parameter there. It is // only here to ensure consistent behavior for calls from C++ and D code. public override char[] DefaultParms(int x) { if (PrintDebug) Stdout.formatln("DDerived - DefaultParms({0})", x); return DefaultParms(x, 1.1/*use C++ default here*/); } }