/*----------------------------------------------------------------------------*/ /* */ /* Copyright (c) 2008-2019 Rexx Language Association. All rights reserved. */ /* */ /* This program and the accompanying materials are made available under */ /* the terms of the Common Public License v1.0 which accompanies this */ /* distribution. A copy is also available at the following address: */ /* http://www.oorexx.org/license.html */ /* */ /* Redistribution and use in source and binary forms, with or */ /* without modification, are permitted provided that the following */ /* conditions are met: */ /* */ /* Redistributions of source code must retain the above copyright */ /* notice, this list of conditions and the following disclaimer. */ /* Redistributions in binary form must reproduce the above copyright */ /* notice, this list of conditions and the following disclaimer in */ /* the documentation and/or other materials provided with the distribution. */ /* */ /* Neither the name of Rexx Language Association nor the names */ /* of its contributors may be used to endorse or promote products */ /* derived from this software without specific prior written permission. */ /* */ /* THIS SOFTWARE IS PROVIDED BY THE COPYright HOLDERS AND CONTRIBUTORS */ /* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT */ /* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS */ /* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYright */ /* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, */ /* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED */ /* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, */ /* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY */ /* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING */ /* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS */ /* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* */ /*----------------------------------------------------------------------------*/ #include #include RexxMethod0(int, // Return type TestZeroIntArgs) // Object_method name { return 0; } RexxMethod1(int, // Return type TestOneIntArg, // Object_method name int, arg1) // Argument { return arg1; } RexxMethod2(int, // Return type TestTwoIntArgs, // Object_method name int, arg1, // Argument int, arg2) // Argument { return arg1 + arg2; } RexxMethod3(int, // Return type TestThreeIntArgs, // Object_method name int, arg1, // Argument int, arg2, // Argument int, arg3) // Argument { return arg1 + arg2 + arg3; } RexxMethod4(int, // Return type TestFourIntArgs, // Object_method name int, arg1, // Argument int, arg2, // Argument int, arg3, // Argument int, arg4) // Argument { return arg1 + arg2 + arg3 + arg4; } RexxMethod5(int, // Return type TestFiveIntArgs, // Object_method name int, arg1, // Argument int, arg2, // Argument int, arg3, // Argument int, arg4, // Argument int, arg5) // Argument { return arg1 + arg2 + arg3 + arg4 + arg5; } RexxMethod6(int, // Return type TestSixIntArgs, // Object_method name int, arg1, // Argument int, arg2, // Argument int, arg3, // Argument int, arg4, // Argument int, arg5, // Argument int, arg6) // Argument { return arg1 + arg2 + arg3 + arg4 + arg5 + arg6; } RexxMethod7(int, // Return type TestSevenIntArgs, // Object_method name int, arg1, // Argument int, arg2, // Argument int, arg3, // Argument int, arg4, // Argument int, arg5, // Argument int, arg6, // Argument int, arg7) // Argument { return arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7; } RexxMethod8(int, // Return type TestEightIntArgs, // Object_method name int, arg1, // Argument int, arg2, // Argument int, arg3, // Argument int, arg4, // Argument int, arg5, // Argument int, arg6, // Argument int, arg7, // Argument int, arg8) // Argument { return arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8; } RexxMethod9(int, // Return type TestNineIntArgs, // Object_method name int, arg1, // Argument int, arg2, // Argument int, arg3, // Argument int, arg4, // Argument int, arg5, // Argument int, arg6, // Argument int, arg7, // Argument int, arg8, // Argument int, arg9) // Argument { return arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9; } RexxMethod10(int, // Return type TestTenIntArgs, // Object_method name int, arg1, // Argument int, arg2, // Argument int, arg3, // Argument int, arg4, // Argument int, arg5, // Argument int, arg6, // Argument int, arg7, // Argument int, arg8, // Argument int, arg9, // Argument int, arg10) // Argument { return arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10; } RexxMethod1(int, // Return type TestIntArg, // Object_method name int, arg1) // Argument { return arg1; } RexxMethod1(int32_t, // Return type TestInt32Arg, // Function routine name int32_t, arg1) // Argument { return arg1; } RexxMethod1(uint32_t, // Return type TestUint32Arg, // Function routine name uint32_t, arg1) // Argument { return arg1; } RexxMethod1(int8_t, // Return type TestInt8Arg, // Function routine name int8_t, arg1) // Argument { return arg1; } RexxMethod1(uint8_t, // Return type TestUint8Arg, // Function routine name uint8_t, arg1) // Argument { return arg1; } RexxMethod1(int16_t, // Return type TestInt16Arg, // Function routine name int16_t, arg1) // Argument { return arg1; } RexxMethod1(uint16_t, // Return type TestUint16Arg, // Function routine name uint16_t, arg1) // Argument { return arg1; } RexxMethod1(int64_t, // Return type TestInt64Arg, // Function routine name int64_t, arg1) // Argument { return arg1; } RexxMethod1(uint64_t, // Return type TestUint64Arg, // Function routine name uint64_t, arg1) // Argument { return arg1; } RexxMethod1(intptr_t, // Return type TestIntPtrArg, // Function routine name intptr_t, arg1) // Argument { return arg1; } RexxMethod1(uintptr_t, // Return type TestUintPtrArg, // Function routine name uintptr_t, arg1) // Argument { return arg1; } RexxMethod1(wholenumber_t, // Return type TestWholeNumberArg, // Function routine name wholenumber_t, arg1) // Argument { return arg1; } RexxMethod1(wholenumber_t, // Return type TestNonnegativeWholeNumberArg, // Function routine name nonnegative_wholenumber_t, arg1) // Argument { return arg1; } RexxMethod1(stringsize_t, // Return type TestStringSizeArg, // Function routine name stringsize_t, arg1) // Argument { return arg1; } RexxMethod1(size_t, // Return type TestSizeArg, // Function routine name size_t, arg1) // Argument { return arg1; } RexxMethod1(ssize_t, // Return type TestSSizeArg, // Function routine name ssize_t, arg1) // Argument { return arg1; } RexxMethod1(logical_t, // Return type TestLogicalArg, // Function routine name logical_t, arg1) // Argument { return arg1; } RexxMethod1(float, // Return type TestFloatArg, // Function routine name float, arg1) // Argument { return arg1; } RexxMethod1(double, // Return type TestDoubleArg, // Function routine name double, arg1) // Argument { return arg1; } RexxMethod1(CSTRING, // Return type TestCstringArg, // Function routine name CSTRING, arg1) // Argument { return arg1; } RexxMethod0(POINTER, // Return type TestPointerValue) // Function routine name { return (void *)TestPointerValue; } RexxMethod1(logical_t, // Return type TestPointerArg, // Function routine name POINTER, arg1) // Argument { if (arg1 == TestPointerValue) { return 1; } return 0; } RexxMethod0(POINTER, // Return type TestNullPointerValue) // Function routine name { return NULL; } RexxMethod0(POINTERSTRING, // Return type TestPointerStringValue) // Function routine name { return (void *)TestPointerStringValue; } RexxMethod1(logical_t, // Return type TestPointerStringArg, // Function routine name POINTERSTRING, arg1) // Argument { if (arg1 == TestPointerStringValue) { return 1; } return 0; } RexxMethod0(POINTERSTRING, // Return type TestNullPointerStringValue) // Function routine name { return NULL; } RexxMethod1(RexxStemObject, // Return type TestStemArg, // Function routine name RexxStemObject, arg1) // Argument { return arg1; } RexxMethod1(RexxStringObject, // Return type TestStringArg, // Function routine name RexxStringObject, arg1) // Argument { return arg1; } RexxMethod1(RexxObjectPtr, // Return type TestObjectArg, // Function routine name RexxObjectPtr, arg1) // Argument { return arg1; } RexxMethod1(RexxArrayObject, // Return type TestArrayArg, // Function routine name RexxArrayObject, arg1) // Argument { return arg1; } RexxMethod1(RexxClassObject, // Return type TestClassArg, // Function routine name RexxClassObject, arg1) // Argument { return arg1; } RexxMethod1(RexxClassObject, // Return type TestSuperArg, // Function routine name SUPER, arg1) // Argument { return (RexxClassObject)arg1; } RexxMethod1(RexxObjectPtr, // Return type TestScopeArg, // Function routine name SCOPE, arg1) // Argument { return arg1; } RexxMethod1(RexxObjectPtr, // Return type TestOSelfArg, // Function routine name OSELF, arg1) // Argument { return arg1; } RexxMethod1(RexxArrayObject, // Return type TestArglistArg, // Function routine name ARGLIST, arg1) // Argument { return arg1; } RexxMethod1(CSTRING, // Return type TestNameArg, // Function routine name NAME, arg1) // Argument { return arg1; } RexxMethod1(wholenumber_t, // Return type TestObjectToWholeNumber, // Function routine name RexxObjectPtr, arg1) // Argument { wholenumber_t result; if (!context->ObjectToWholeNumber(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(wholenumber_t, // Return type TestObjectToWholeNumberAlt, // Function routine name RexxObjectPtr, arg1) // Argument { wholenumber_t result; if (!context->WholeNumber(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(stringsize_t, // Return type TestObjectToStringSize, // Function routine name RexxObjectPtr, arg1) // Argument { stringsize_t result; if (!context->ObjectToStringSize(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(stringsize_t, // Return type TestObjectToStringSizeAlt, // Function routine name RexxObjectPtr, arg1) // Argument { stringsize_t result; if (!context->StringSize(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(int64_t, // Return type TestObjectToInt64, // Function routine name RexxObjectPtr, arg1) // Argument { int64_t result; if (!context->ObjectToInt64(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(int64_t, // Return type TestObjectToInt64Alt, // Function routine name RexxObjectPtr, arg1) // Argument { int64_t result; if (!context->Int64(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(uint64_t, // Return type TestObjectToUnsignedInt64, // Function routine name RexxObjectPtr, arg1) // Argument { uint64_t result; if (!context->ObjectToUnsignedInt64(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(uint64_t, // Return type TestObjectToUnsignedInt64Alt, // Function routine name RexxObjectPtr, arg1) // Argument { uint64_t result; if (!context->UnsignedInt64(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(int32_t, // Return type TestObjectToInt32, // Function routine name RexxObjectPtr, arg1) // Argument { int32_t result; if (!context->ObjectToInt32(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(int32_t, // Return type TestObjectToInt32Alt, // Function routine name RexxObjectPtr, arg1) // Argument { int32_t result; if (!context->Int32(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(uint32_t, // Return type TestObjectToUnsignedInt32, // Function routine name RexxObjectPtr, arg1) // Argument { uint32_t result; if (!context->ObjectToUnsignedInt32(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(uint32_t, // Return type TestObjectToUnsignedInt32Alt, // Function routine name RexxObjectPtr, arg1) // Argument { uint32_t result; if (!context->UnsignedInt32(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(intptr_t, // Return type TestObjectToIntptr, // Function routine name RexxObjectPtr, arg1) // Argument { intptr_t result; if (!context->ObjectToIntptr(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(intptr_t, // Return type TestObjectToIntptrAlt, // Function routine name RexxObjectPtr, arg1) // Argument { intptr_t result; if (!context->Intptr(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(uintptr_t, // Return type TestObjectToUintptr, // Function routine name RexxObjectPtr, arg1) // Argument { uintptr_t result; if (!context->ObjectToUintptr(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(uintptr_t, // Return type TestObjectToUintptrAlt, // Function routine name RexxObjectPtr, arg1) // Argument { uintptr_t result; if (!context->Uintptr(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(logical_t, // Return type TestObjectToLogical, // Function routine name RexxObjectPtr, arg1) // Argument { logical_t result; if (!context->ObjectToLogical(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(logical_t, // Return type TestObjectToLogicalAlt, // Function routine name RexxObjectPtr, arg1) // Argument { logical_t result; if (!context->Logical(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0; } return result; } RexxMethod1(double, // Return type TestObjectToDouble, // Function routine name RexxObjectPtr, arg1) // Argument { double result; if (!context->ObjectToDouble(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0.0; } return result; } RexxMethod1(double, // Return type TestObjectToDoubleAlt, // Function routine name RexxObjectPtr, arg1) // Argument { double result; if (!context->Double(arg1, &result)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return 0.0; } return result; } RexxMethod1(RexxObjectPtr, // Return type TestWholeNumberToObject, // Function routine name wholenumber_t, arg1) // Argument { return context->WholeNumberToObject(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestWholeNumberToObjectAlt, // Function routine name wholenumber_t, arg1) // Argument { return context->WholeNumber(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestStringSizeToObject, // Function routine name stringsize_t, arg1) // Argument { return context->StringSizeToObject(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestStringSizeToObjectAlt, // Function routine name stringsize_t, arg1) // Argument { return context->StringSize(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestInt64ToObject, // Function routine name int64_t, arg1) // Argument { return context->Int64ToObject(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestInt64ToObjectAlt, // Function routine name int64_t, arg1) // Argument { return context->Int64(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestUnsignedInt64ToObject, // Function routine name uint64_t, arg1) // Argument { return context->UnsignedInt64ToObject(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestUnsignedInt64ToObjectAlt, // Function routine name uint64_t, arg1) // Argument { return context->UnsignedInt64(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestInt32ToObject, // Function routine name int32_t, arg1) // Argument { return context->Int32ToObject(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestInt32ToObjectAlt, // Function routine name int32_t, arg1) // Argument { return context->Int32(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestUnsignedInt32ToObject, // Function routine name uint32_t, arg1) // Argument { return context->UnsignedInt32ToObject(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestUnsignedInt32ToObjectAlt, // Function routine name uint32_t, arg1) // Argument { return context->UnsignedInt32(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestIntptrToObject, // Function routine name intptr_t, arg1) // Argument { return context->IntptrToObject(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestIntptrToObjectAlt, // Function routine name intptr_t, arg1) // Argument { return context->Intptr(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestUintptrToObject, // Function routine name uintptr_t, arg1) // Argument { return context->UintptrToObject(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestUintptrToObjectAlt, // Function routine name uintptr_t, arg1) // Argument { return context->Uintptr(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestLogicalToObject, // Function routine name logical_t, arg1) // Argument { return context->LogicalToObject(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestLogicalToObjectAlt, // Function routine name logical_t, arg1) // Argument { return context->Logical(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestDoubleToObject, // Function routine name double, arg1) // Argument { return context->DoubleToObject(arg1); } RexxMethod1(RexxObjectPtr, // Return type TestDoubleToObjectAlt, // Function routine name double, arg1) // Argument { return context->Double(arg1); } RexxMethod2(RexxObjectPtr, TestObjectToValue, RexxObjectPtr, arg1, int, type) // the type of value to convert { ValueDescriptor value; value.type = type; // this is the desired type if (!context->ObjectToValue(arg1, &value)) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return context->ValueToObject(&value); } RexxMethod1(RexxArrayObject, TestGetArguments, ARGLIST, arg1) // unused dummy argument that allows this to be invoked with variable args. { return context->GetArguments(); } RexxMethod2(RexxObjectPtr, TestGetArgument, size_t, index, ARGLIST, arg1) // unused dummy argument that allows this to be invoked with variable args. { RexxObjectPtr result = context->GetArgument(index); if (result == NULLOBJECT) { // distinguishes between existing/non-existing argments context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return result; } RexxMethod0(CSTRING, TestGetMessageName) { return context->GetMessageName(); } RexxMethod0(RexxObjectPtr, TestGetMethod) { return (RexxObjectPtr)context->GetMethod(); } RexxMethod0(RexxObjectPtr, TestGetSelf) { return (RexxObjectPtr)context->GetSelf(); } RexxMethod0(RexxClassObject, TestGetSuper) { return context->GetSuper(); } RexxMethod0(RexxObjectPtr, TestGetScope) { return context->GetScope(); } RexxMethod2(int, TestSetObjectVariable, CSTRING, name, RexxObjectPtr, value) { context->SetObjectVariable(name, value); return 0; } RexxMethod1(RexxObjectPtr, TestGetObjectVariable, CSTRING, name) { RexxObjectPtr value = context->GetObjectVariable(name); if (value == NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return value; } RexxMethod1(RexxObjectPtr, TestGetObjectVariableOrNil, CSTRING, name) { RexxObjectPtr value = context->GetObjectVariable(name); if (value == NULLOBJECT) { return context->Nil(); } return value; } RexxMethod1(int, TestDropObjectVariable, CSTRING, name) { context->DropObjectVariable(name); return 0; } RexxMethod4(RexxObjectPtr, TestForwardMessage, RexxObjectPtr, to, CSTRING, name, RexxClassObject, super, RexxArrayObject, args) { return context->ForwardMessage(to, name, super, args); } RexxMethod1(RexxClassObject, TestFindContextClass, CSTRING, name) { RexxClassObject value = context->FindContextClass(name); if (value == NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return value; } RexxMethod1(RexxStemObject, TestNewStem, CSTRING, name) { return context->NewStem(name); } RexxMethod3(int, TestSetStemElement, RexxStemObject, stem, CSTRING, tail, RexxObjectPtr, value) { context->SetStemElement(stem, tail, value); return 0; } RexxMethod2(RexxObjectPtr, TestGetStemElement, RexxStemObject, stem, CSTRING, tail) { RexxObjectPtr value = context->GetStemElement(stem, tail); if (value == NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return value; } RexxMethod2(int, TestDropStemElement, RexxStemObject, stem, CSTRING, tail) { context->DropStemElement(stem, tail); return 0; } RexxMethod3(int, TestSetStemArrayElement, RexxStemObject, stem, size_t, tail, RexxObjectPtr, value) { context->SetStemArrayElement(stem, tail, value); return 0; } RexxMethod2(RexxObjectPtr, TestGetStemArrayElement, RexxStemObject, stem, size_t, tail) { RexxObjectPtr value = context->GetStemArrayElement(stem, tail); if (value == NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return value; } RexxMethod2(int, TestDropStemArrayElement, RexxStemObject, stem, size_t, tail) { context->DropStemArrayElement(stem, tail); return 0; } RexxMethod1(RexxObjectPtr, TestGetAllStemElements, RexxStemObject, stem) { return (RexxObjectPtr)context->GetAllStemElements(stem); } RexxMethod1(RexxObjectPtr, TestGetStemValue, RexxStemObject, stem) { return context->GetStemValue(stem); } RexxMethod1(logical_t, TestIsStem, RexxObjectPtr, stem) { return context->IsStem(stem); } RexxMethod1(RexxObjectPtr, TestSupplierItem, RexxObjectPtr, supplier) { return context->SupplierItem((RexxSupplierObject)supplier); } RexxMethod1(RexxObjectPtr, TestSupplierIndex, RexxObjectPtr, supplier) { return context->SupplierIndex((RexxSupplierObject)supplier); } RexxMethod1(logical_t, TestSupplierAvailable, RexxObjectPtr, supplier) { return context->SupplierAvailable((RexxSupplierObject)supplier); } RexxMethod1(int, TestSupplierNext, RexxObjectPtr, supplier) { context->SupplierNext((RexxSupplierObject)supplier); return 0; } RexxMethod2(RexxObjectPtr, TestNewSupplier, RexxArrayObject, values, RexxArrayObject, indexes) { return (RexxObjectPtr)context->NewSupplier(values, indexes); } RexxMethod2(RexxObjectPtr, TestArrayAt, RexxArrayObject, array, size_t, index) { RexxObjectPtr value = context->ArrayAt(array, index); if (value == NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return value; } RexxMethod3(int, TestArrayPut, RexxArrayObject, array, RexxObjectPtr, value, size_t, index) { context->ArrayPut(array, value, index); return 0; } RexxMethod2(size_t, TestArrayAppend, RexxArrayObject, array, RexxObjectPtr, value) { return context->ArrayAppend(array, value); } RexxMethod2(size_t, TestArrayAppendString, RexxArrayObject, array, CSTRING, value) { return context->ArrayAppendString(array, value, strlen(value)); } RexxMethod1(size_t, TestArraySize, RexxArrayObject, array) { return context->ArraySize(array); } RexxMethod1(size_t, TestArrayItems, RexxArrayObject, array) { return context->ArrayItems(array); } RexxMethod1(size_t, TestArrayDimension, RexxObjectPtr, array) { return context->ArrayDimension((RexxArrayObject)array); } RexxMethod1(RexxArrayObject, TestNewArray, size_t, size) { return context->NewArray(size); } RexxMethod1(RexxArrayObject, TestArrayOfOne, RexxObjectPtr, arg1) { return context->ArrayOfOne(arg1); } RexxMethod2(RexxArrayObject, TestArrayOfTwo, RexxObjectPtr, arg1, RexxObjectPtr, arg2) { return context->ArrayOfTwo(arg1, arg2); } RexxMethod3(RexxArrayObject, TestArrayOfThree, RexxObjectPtr, arg1, RexxObjectPtr, arg2, RexxObjectPtr, arg3) { return context->ArrayOfThree(arg1, arg2, arg3); } RexxMethod4(RexxArrayObject, TestArrayOfFour, RexxObjectPtr, arg1, RexxObjectPtr, arg2, RexxObjectPtr, arg3, RexxObjectPtr, arg4) { return context->ArrayOfFour(arg1, arg2, arg3, arg4); } RexxMethod1(RexxArrayObject, TestArrayOfOneAlt, RexxObjectPtr, arg1) { return context->Array(arg1); } RexxMethod2(RexxArrayObject, TestArrayOfTwoAlt, RexxObjectPtr, arg1, RexxObjectPtr, arg2) { return context->Array(arg1, arg2); } RexxMethod3(RexxArrayObject, TestArrayOfThreeAlt, RexxObjectPtr, arg1, RexxObjectPtr, arg2, RexxObjectPtr, arg3) { return context->Array(arg1, arg2, arg3); } RexxMethod4(RexxArrayObject, TestArrayOfFourAlt, RexxObjectPtr, arg1, RexxObjectPtr, arg2, RexxObjectPtr, arg3, RexxObjectPtr, arg4) { return context->Array(arg1, arg2, arg3, arg4); } RexxMethod1(logical_t, TestIsArray, RexxObjectPtr, o) { return context->IsArray(o); } RexxMethod3(int, TestDirectoryPut, RexxObjectPtr, dir, RexxObjectPtr, value, CSTRING, index) { context->DirectoryPut((RexxDirectoryObject)dir, value, index); return 0; } RexxMethod2(RexxObjectPtr, TestDirectoryAt, RexxObjectPtr, dir, CSTRING, index) { RexxObjectPtr value = context->DirectoryAt((RexxDirectoryObject)dir, index); if (value == NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return value; } RexxMethod2(RexxObjectPtr, TestDirectoryRemove, RexxObjectPtr, dir, CSTRING, index) { RexxObjectPtr value = context->DirectoryRemove((RexxDirectoryObject)dir, index); if (value == NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return value; } RexxMethod0(RexxObjectPtr, TestNewDirectory) { return (RexxObjectPtr)context->NewDirectory(); } RexxMethod1(logical_t, TestIsDirectory, RexxObjectPtr, o) { return context->IsDirectory(o); } // StringTable tests, added with 5.0 RexxMethod3(int, TestStringTablePut, RexxObjectPtr, st, RexxObjectPtr, value, CSTRING, index) { context->StringTablePut((RexxStringTableObject)st, value, index); return 0; } RexxMethod2(RexxObjectPtr, TestStringTableAt, RexxObjectPtr, st, CSTRING, index) { RexxObjectPtr value = context->StringTableAt((RexxStringTableObject)st, index); if (value == NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return value; } RexxMethod2(RexxObjectPtr, TestStringTableRemove, RexxObjectPtr, st, CSTRING, index) { RexxObjectPtr value = context->StringTableRemove((RexxStringTableObject)st, index); if (value == NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); return NULLOBJECT; } return value; } RexxMethod0(RexxObjectPtr, TestNewStringTable) { return (RexxObjectPtr)context->NewStringTable(); } RexxMethod1(logical_t, TestIsStringTable, RexxObjectPtr, o) { return context->IsStringTable(o); } RexxMethod1(int, // Return type TestOptionalIntArg, // Object_method name OPTIONAL_int, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(int32_t, // Return type TestOptionalInt32Arg, // Function routine name OPTIONAL_int32_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(uint32_t, // Return type TestOptionalUint32Arg, // Function routine name OPTIONAL_uint32_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(int8_t, // Return type TestOptionalInt8Arg, // Function routine name OPTIONAL_int8_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(uint8_t, // Return type TestOptionalUint8Arg, // Function routine name OPTIONAL_uint8_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(int16_t, // Return type TestOptionalInt16Arg, // Function routine name OPTIONAL_int16_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(uint16_t, // Return type TestOptionalUint16Arg, // Function routine name OPTIONAL_uint16_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(int64_t, // Return type TestOptionalInt64Arg, // Function routine name OPTIONAL_int64_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(uint64_t, // Return type TestOptionalUint64Arg, // Function routine name OPTIONAL_uint64_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(intptr_t, // Return type TestOptionalIntPtrArg, // Function routine name OPTIONAL_intptr_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(uintptr_t, // Return type TestOptionalUintPtrArg, // Function routine name OPTIONAL_uintptr_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(wholenumber_t, // Return type TestOptionalWholeNumberArg, // Function routine name OPTIONAL_wholenumber_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(positive_wholenumber_t, // Return type TestOptionalPositiveWholeNumberArg, // Function routine name OPTIONAL_positive_wholenumber_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(wholenumber_t, // Return type TestOptionalNonnegativeWholeNumberArg, // Function routine name OPTIONAL_nonnegative_wholenumber_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(stringsize_t, // Return type TestOptionalStringSizeArg, // Function routine name OPTIONAL_stringsize_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(size_t, // Return type TestOptionalSizeArg, // Function routine name OPTIONAL_size_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(ssize_t, // Return type TestOptionalSSizeArg, // Function routine name OPTIONAL_ssize_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(logical_t, // Return type TestOptionalLogicalArg, // Function routine name OPTIONAL_logical_t, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(float, // Return type TestOptionalFloatArg, // Function routine name OPTIONAL_float, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0.0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(double, // Return type TestOptionalDoubleArg, // Function routine name OPTIONAL_double, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != 0.0) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(CSTRING, // Return type TestOptionalCstringArg, // Function routine name OPTIONAL_CSTRING, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != NULL) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(POINTER, // Return type TestOptionalPointerArg, // Function routine name OPTIONAL_POINTER, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != NULL) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(POINTER, // Return type TestOptionalPointerStringArg, // Function routine name OPTIONAL_POINTERSTRING, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != NULL) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(RexxStemObject, // Return type TestOptionalStemArg, // Function routine name OPTIONAL_RexxStemObject, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(RexxObjectPtr, // Return type TestOptionalObjectArg, // Function routine name OPTIONAL_RexxObjectPtr, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(RexxStringObject, // Return type TestOptionalStringArg, // Function routine name OPTIONAL_RexxStringObject, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(RexxArrayObject, // Return type TestOptionalArrayArg, // Function routine name OPTIONAL_RexxArrayObject, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod1(RexxClassObject, // Return type TestOptionalClassArg, // Function routine name OPTIONAL_RexxClassObject, arg1) // Argument { if (argumentOmitted(1)) { if (arg1 != NULLOBJECT) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Conversion error")); } } return arg1; } RexxMethod3(RexxObjectPtr, TestSendMessage, RexxObjectPtr, target, CSTRING, name, RexxArrayObject, args) { return context->SendMessage(target, name, args); } RexxMethod4(RexxObjectPtr, TestSendMessageScoped, RexxObjectPtr, target, CSTRING, name, RexxClassObject, scope, RexxArrayObject, args) { return context->SendMessageScoped(target, name, scope, args); } RexxMethod2(RexxObjectPtr, TestSendMessage0, RexxObjectPtr, target, CSTRING, name) { return context->SendMessage0(target, name); } RexxMethod3(RexxObjectPtr, TestSendMessage1, RexxObjectPtr, target, CSTRING, name, RexxObjectPtr, arg1) { return context->SendMessage1(target, name, arg1); } RexxMethod4(RexxObjectPtr, TestSendMessage2, RexxObjectPtr, target, CSTRING, name, RexxObjectPtr, arg1, RexxObjectPtr, arg2) { return context->SendMessage2(target, name, arg1, arg2); } RexxMethod2(logical_t, TestIsInstanceOf, RexxObjectPtr, arg1, RexxClassObject, arg2) { return context->IsInstanceOf(arg1, arg2); } RexxMethod2(logical_t, TestHasMethod, RexxObjectPtr, arg1, CSTRING, name) { return context->HasMethod(arg1, name); } RexxMethod1(RexxObjectPtr, TestLoadPackage, CSTRING, name) { return (RexxObjectPtr)context->LoadPackage(name); } RexxMethod2(RexxObjectPtr, TestLoadPackageFromData, CSTRING, name, RexxStringObject, data) { return (RexxObjectPtr)context->LoadPackageFromData(name, context->StringData(data), context->StringLength(data)); } RexxMethod1(RexxClassObject, TestFindClass, CSTRING, name) { return context->FindClass(name); } RexxMethod2(RexxClassObject, TestFindPackageClass, RexxObjectPtr, package, CSTRING, name) { return context->FindPackageClass((RexxPackageObject)package, name); } RexxMethod1(RexxObjectPtr, TestGetPackageRoutines, RexxObjectPtr, package) { return (RexxObjectPtr)context->GetPackageRoutines((RexxPackageObject)package); } RexxMethod1(RexxObjectPtr, TestGetPackagePublicRoutines, RexxObjectPtr, package) { return (RexxObjectPtr)context->GetPackagePublicRoutines((RexxPackageObject)package); } RexxMethod1(RexxObjectPtr, TestGetPackageClasses, RexxObjectPtr, package) { return (RexxObjectPtr)context->GetPackageClasses((RexxPackageObject)package); } RexxMethod1(RexxObjectPtr, TestGetPackagePublicClasses, RexxObjectPtr, package) { return (RexxObjectPtr)context->GetPackagePublicClasses((RexxPackageObject)package); } RexxMethod1(RexxObjectPtr, TestGetPackageMethods, RexxObjectPtr, package) { return (RexxObjectPtr)context->GetPackageMethods((RexxPackageObject)package); } RexxMethod2(RexxObjectPtr, TestCallRoutine, RexxObjectPtr, routine, RexxArrayObject, args) { return context->CallRoutine((RexxRoutineObject)routine, args); } RexxMethod2(RexxObjectPtr, TestCallProgram, CSTRING, name, RexxArrayObject, args) { return context->CallProgram(name, args); } RexxMethod2(RexxObjectPtr, TestNewMethod, CSTRING, name, RexxStringObject, data) { return (RexxObjectPtr)context->NewMethod(name, context->StringData(data), context->StringLength(data)); } RexxMethod2(RexxObjectPtr, TestNewRoutine, CSTRING, name, RexxStringObject, data) { return (RexxObjectPtr)context->NewRoutine(name, context->StringData(data), context->StringLength(data)); } RexxMethod1(logical_t, TestIsMethod, RexxObjectPtr, target) { return context->IsMethod(target); } RexxMethod1(logical_t, TestIsRoutine, RexxObjectPtr, target) { return context->IsRoutine(target); } RexxMethod1(RexxObjectPtr, TestGetMethodPackage, RexxObjectPtr, target) { return (RexxObjectPtr)context->GetMethodPackage((RexxMethodObject)target); } RexxMethod1(RexxObjectPtr, TestGetRoutinePackage, RexxObjectPtr, target) { return (RexxObjectPtr)context->GetRoutinePackage((RexxRoutineObject)target); } RexxMethod1(RexxStringObject, TestObjectToString, RexxObjectPtr, target) { return context->ObjectToString(target); } RexxMethod3(RexxStringObject, TestStringGet, RexxStringObject, source, stringsize_t, offset, stringsize_t, length) { char *buffer = (char *)malloc(length + 16); context->StringGet(source, offset, buffer, length); RexxStringObject result = context->NewString(buffer, length); free(buffer); return result; } RexxMethod1(stringsize_t, TestStringLength, RexxStringObject, target) { return context->StringLength(target); } RexxMethod1(CSTRING, TestStringData, RexxStringObject, target) { return context->StringData(target); } RexxMethod1(RexxStringObject, TestStringUpper, RexxStringObject, target) { return context->StringUpper(target); } RexxMethod1(RexxStringObject, TestStringLower, RexxStringObject, target) { return context->StringLower(target); } RexxMethod1(logical_t, TestIsString, RexxObjectPtr, target) { return context->IsString(target); } RexxMethod1(RexxStringObject, TestNewStringFromAsciiz, CSTRING, source) { return context->NewStringFromAsciiz(source); } RexxMethod1(RexxStringObject, TestNewStringFromAsciizAlt, CSTRING, source) { return context->String(source); } RexxMethod1(RexxStringObject, TestCStringToObject, CSTRING, source) { return context->CString(source); } RexxMethod1(CSTRING, TestObjectToCString, RexxObjectPtr, source) { return context->CString(source); } RexxMethod2(RexxStringObject, TestNewString, CSTRING, source, size_t, len) { return context->NewString(source, len); } RexxMethod2(RexxStringObject, TestNewStringAlt, CSTRING, source, size_t, len) { return context->String(source, len); } RexxMethod1(int, TestRaiseException0, size_t, errNo) { context->RaiseException0(errNo); // this should still get executed context->SetObjectVariable("CONTINUE", context->True()); return 0; } RexxMethod2(int, TestRaiseException1, size_t, errNo, RexxObjectPtr, sub1) { context->RaiseException1(errNo, sub1); // this should still get executed context->SetObjectVariable("CONTINUE", context->True()); return 0; } RexxMethod3(int, TestRaiseException2, size_t, errNo, RexxObjectPtr, sub1, RexxObjectPtr, sub2) { context->RaiseException2(errNo, sub1, sub2); // this should still get executed context->SetObjectVariable("CONTINUE", context->True()); return 0; } RexxMethod2(int, TestRaiseException, size_t, errNo, RexxArrayObject, subs) { context->RaiseException(errNo, subs); // this should still get executed context->SetObjectVariable("CONTINUE", context->True()); return 0; } RexxMethod4(int, TestRaiseCondition, CSTRING, name, OPTIONAL_CSTRING, desc, OPTIONAL_RexxArrayObject, add, OPTIONAL_RexxObjectPtr, result) { context->RaiseCondition(name, (RexxStringObject)desc, add, result); // this should still get executed context->SetObjectVariable("CONTINUE", context->True()); return 0; } RexxMethod1(int, TestThrowException0, size_t, errNo) { context->ThrowException0(errNo); // this should never execute context->SetObjectVariable("CONTINUE", context->True()); return 0; } RexxMethod2(int, TestThrowException1, size_t, errNo, RexxObjectPtr, sub1) { context->ThrowException1(errNo, sub1); // this should never execute context->SetObjectVariable("CONTINUE", context->True()); return 0; } RexxMethod3(int, TestThrowException2, size_t, errNo, RexxObjectPtr, sub1, RexxObjectPtr, sub2) { context->ThrowException2(errNo, sub1, sub2); // this should never execute context->SetObjectVariable("CONTINUE", context->True()); return 0; } RexxMethod2(int, TestThrowException, size_t, errNo, RexxArrayObject, subs) { context->ThrowException(errNo, subs); // this should never execute context->SetObjectVariable("CONTINUE", context->True()); return 0; } RexxMethod4(int, TestThrowCondition, CSTRING, name, OPTIONAL_CSTRING, desc, OPTIONAL_RexxArrayObject, add, OPTIONAL_RexxObjectPtr, result) { context->ThrowCondition(name, (RexxStringObject)desc, add, result); // this should never execute context->SetObjectVariable("CONTINUE", context->True()); return 0; } RexxMethod1(int, TestBufferInit, int, initValue) { RexxBufferObject buffer = context->NewBuffer(sizeof(int)); int *ptr = (int *)context->BufferData(buffer); *ptr = initValue; context->SetObjectVariable("CSELF", (RexxObjectPtr)buffer); return 0; } RexxMethod1(int, TestBufferCSelf, CSELF, self) { return *((int *)self); } RexxMethod0(RexxObjectPtr, TestGetBuffer) { return context->GetObjectVariable("CSELF"); } RexxMethod1(int, TestBufferObjectToCSelf, OSELF, self) { int *ptr = (int *)context->ObjectToCSelf(self); return *ptr; } RexxMethod1(logical_t, TestIsBuffer, RexxObjectPtr, target) { return context->IsBuffer(target); } RexxMethod0(size_t, TestInterpreterVersion) { size_t version = context->InterpreterVersion(); // this validates that the headers are in sync with the interpreter build if (version != REXX_CURRENT_INTERPRETER_VERSION) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Interpreter version mismatch")); } return version; } RexxMethod0(size_t, TestLanguageLevel) { size_t version = context->LanguageLevel(); // this validates that the headers are in sync with the interpreter build if (version != REXX_CURRENT_LANGUAGE_LEVEL) { context->RaiseException1(Rexx_Error_Invalid_argument_user_defined, context->NewStringFromAsciiz("Language level mismatch")); } return version; } RexxMethod1(RexxMutableBufferObject, TestNewMutableBuffer, size_t, l) { return context->NewMutableBuffer(l); } RexxMethod1(size_t, TestMutableBufferLength, RexxMutableBufferObject, b) { return context->MutableBufferLength(b); } RexxMethod2(size_t, TestSetMutableBufferLength, RexxMutableBufferObject, b, size_t, l) { return context->SetMutableBufferLength(b, l); } RexxMethod1(size_t, TestMutableBufferCapacity, RexxMutableBufferObject, b) { return context->MutableBufferCapacity(b); } RexxMethod2(size_t, TestSetMutableBufferCapacity, RexxMutableBufferObject, b, size_t, l) { context->SetMutableBufferCapacity(b, l); return context->MutableBufferCapacity(b); } RexxMethod1(logical_t, TestIsMutableBuffer, RexxObjectPtr, b) { return context->IsMutableBuffer(b); } RexxMethod2(RexxMutableBufferObject, TestSetMutableBufferValue, RexxMutableBufferObject, b, CSTRING, newValue) { size_t l = strlen(newValue); char * buffer = (char *)context->SetMutableBufferCapacity(b, l); // must set the length first if we are extending, as the set // will pad with nulls if it goes longer. context->SetMutableBufferLength(b, l); memcpy(buffer, newValue, l); return b; } RexxMethod1(RexxStringObject, TestGetMutableBufferValue, RexxMutableBufferObject, b) { size_t l = context->MutableBufferLength(b); char * buffer = (char *)context->MutableBufferData(b); return context->NewString(buffer, l); } RexxMethod1(positive_wholenumber_t, // Return type TestPositiveWholeNumberArg, // Function routine name positive_wholenumber_t, arg1) // Argument { return arg1; } // [feature-requests:#634] Add a per-object storage management API // POINTER (RexxEntry *AllocateObjectMemory)(RexxMethodContext *, size_t); RexxMethod1(POINTER, // Return type TestAllocateObjectMemory, // Function name size_t, bytes) // Argument { return context->AllocateObjectMemory(bytes); } // void (RexxEntry *FreeObjectMemory)(RexxMethodContext *, POINTER); RexxMethod1(RexxObjectPtr, // Return type TestFreeObjectMemory, // Function name POINTER, ptr) // Argument { context->FreeObjectMemory(ptr); return NULLOBJECT; } // POINTER (RexxEntry *ReallocateObjectMemory)(RexxMethodContext *, POINTER, size_t); RexxMethod2(POINTER, // Return type TestReallocateObjectMemory,// Function name POINTER, ptr, // Argument size_t, bytes) // Argument { return context->ReallocateObjectMemory(ptr, bytes); } // helper: set object memory content; must be null-terminated RexxMethod2(RexxObjectPtr, // Return type TestSetObjectMemory, // Function name POINTER, ptr, // Argument CSTRING, data) // Argument { memcpy(ptr, data, strlen(data)); return NULLOBJECT; } // helper: get object memory content; must be null-terminated RexxMethod1(CSTRING, // Return type TestGetObjectMemory, // Function name POINTER, ptr) // Argument { return (char *)ptr; } // RexxVariableReferenceObject (RexxEntry *GetObjectVariableReference)(RexxMethodContext *, CSTRING); RexxMethod1(RexxVariableReferenceObject, // Return type TestGetObjectVariableReference, // Function name CSTRING, name) // Argument { return context->GetObjectVariableReference(name); } // logical_t (RexxEntry *IsVariableReference)(RexxThreadContext *, RexxObjectPtr); RexxMethod1(logical_t, // Return type TestIsVariableReference, // Function name RexxObjectPtr, o) // Argument { return context->IsVariableReference(o); } // void (RexxEntry *SetVariableReferenceValue)(RexxThreadContext *, RexxVariableReferenceObject, RexxObjectPtr); RexxMethod2(RexxObjectPtr, // Return type TestSetVariableReferenceValue, // Function name RexxVariableReferenceObject, o, // Argument RexxObjectPtr, val) // Argument { context->SetVariableReferenceValue((RexxVariableReferenceObject)o, val); return NULLOBJECT; } // RexxStringObject (RexxEntry *VariableReferenceName)(RexxThreadContext *, RexxVariableReferenceObject); RexxMethod1(RexxStringObject, // Return type TestVariableReferenceName, // Function name RexxVariableReferenceObject, o) // Argument { return context->VariableReferenceName((RexxVariableReferenceObject)o); } // RexxObjectPtr (RexxEntry *VariableReferenceValue)(RexxThreadContext *, RexxVariableReferenceObject); RexxMethod1(RexxObjectPtr, // Return type TestVariableReferenceValue, // Function name RexxVariableReferenceObject, o) // Argument { return context->VariableReferenceValue((RexxVariableReferenceObject)o); } RexxMethodEntry orxtest_methods[] = { REXX_METHOD(TestIsBuffer, TestIsBuffer), REXX_METHOD(TestBufferInit, TestBufferInit), REXX_METHOD(TestBufferCSelf, TestBufferCSelf), REXX_METHOD(TestBufferObjectToCSelf, TestBufferObjectToCSelf), REXX_METHOD(TestGetBuffer, TestGetBuffer), REXX_METHOD(TestZeroIntArgs, TestZeroIntArgs), REXX_METHOD(TestOneIntArg, TestOneIntArg), REXX_METHOD(TestTwoIntArgs, TestTwoIntArgs), REXX_METHOD(TestThreeIntArgs, TestThreeIntArgs), REXX_METHOD(TestFourIntArgs, TestFourIntArgs), REXX_METHOD(TestFiveIntArgs, TestFiveIntArgs), REXX_METHOD(TestSixIntArgs, TestSixIntArgs), REXX_METHOD(TestSevenIntArgs, TestSevenIntArgs), REXX_METHOD(TestEightIntArgs, TestEightIntArgs), REXX_METHOD(TestNineIntArgs, TestNineIntArgs), REXX_METHOD(TestTenIntArgs, TestTenIntArgs), REXX_METHOD(TestIntArg, TestIntArg), REXX_METHOD(TestInt32Arg, TestInt32Arg), REXX_METHOD(TestUint32Arg, TestUint32Arg), REXX_METHOD(TestInt8Arg, TestInt8Arg), REXX_METHOD(TestUint8Arg, TestUint8Arg), REXX_METHOD(TestInt16Arg, TestInt16Arg), REXX_METHOD(TestUint16Arg, TestUint16Arg), REXX_METHOD(TestInt64Arg, TestInt64Arg), REXX_METHOD(TestUint64Arg, TestUint64Arg), REXX_METHOD(TestIntPtrArg, TestIntPtrArg), REXX_METHOD(TestUintPtrArg, TestUintPtrArg), REXX_METHOD(TestWholeNumberArg, TestWholeNumberArg), REXX_METHOD(TestStringSizeArg, TestStringSizeArg), REXX_METHOD(TestPositiveWholeNumberArg, TestPositiveWholeNumberArg), REXX_METHOD(TestNonnegativeWholeNumberArg, TestNonnegativeWholeNumberArg), REXX_METHOD(TestSizeArg, TestSizeArg), REXX_METHOD(TestSSizeArg, TestSSizeArg), REXX_METHOD(TestLogicalArg, TestLogicalArg), REXX_METHOD(TestFloatArg, TestFloatArg), REXX_METHOD(TestDoubleArg, TestDoubleArg), REXX_METHOD(TestCstringArg, TestCstringArg), REXX_METHOD(TestPointerValue, TestPointerValue), REXX_METHOD(TestPointerArg, TestPointerArg), REXX_METHOD(TestNullPointerValue, TestNullPointerValue), REXX_METHOD(TestPointerStringValue, TestPointerStringValue), REXX_METHOD(TestPointerStringArg, TestPointerStringArg), REXX_METHOD(TestNullPointerStringValue, TestNullPointerStringValue), REXX_METHOD(TestStemArg, TestStemArg), REXX_METHOD(TestObjectArg, TestObjectArg), REXX_METHOD(TestStringArg, TestStringArg), REXX_METHOD(TestArrayArg, TestArrayArg), REXX_METHOD(TestClassArg, TestClassArg), REXX_METHOD(TestObjectToWholeNumber, TestObjectToWholeNumber), REXX_METHOD(TestObjectToWholeNumberAlt, TestObjectToWholeNumberAlt), REXX_METHOD(TestObjectToStringSize, TestObjectToStringSize), REXX_METHOD(TestObjectToStringSizeAlt, TestObjectToStringSizeAlt), REXX_METHOD(TestObjectToInt64, TestObjectToInt64), REXX_METHOD(TestObjectToInt64Alt, TestObjectToInt64Alt), REXX_METHOD(TestObjectToUnsignedInt64, TestObjectToUnsignedInt64), REXX_METHOD(TestObjectToUnsignedInt64Alt, TestObjectToUnsignedInt64Alt), REXX_METHOD(TestObjectToInt32, TestObjectToInt32), REXX_METHOD(TestObjectToInt32Alt, TestObjectToInt32Alt), REXX_METHOD(TestObjectToUnsignedInt32, TestObjectToUnsignedInt32), REXX_METHOD(TestObjectToUnsignedInt32Alt, TestObjectToUnsignedInt32Alt), REXX_METHOD(TestObjectToIntptr, TestObjectToIntptr), REXX_METHOD(TestObjectToIntptrAlt, TestObjectToIntptrAlt), REXX_METHOD(TestObjectToUintptr, TestObjectToUintptr), REXX_METHOD(TestObjectToUintptrAlt, TestObjectToUintptrAlt), REXX_METHOD(TestObjectToLogical, TestObjectToLogical), REXX_METHOD(TestObjectToLogicalAlt, TestObjectToLogicalAlt), REXX_METHOD(TestObjectToDouble, TestObjectToDouble), REXX_METHOD(TestObjectToDoubleAlt, TestObjectToDoubleAlt), REXX_METHOD(TestWholeNumberToObject, TestWholeNumberToObject), REXX_METHOD(TestWholeNumberToObjectAlt, TestWholeNumberToObjectAlt), REXX_METHOD(TestStringSizeToObject, TestStringSizeToObject), REXX_METHOD(TestStringSizeToObjectAlt, TestStringSizeToObjectAlt), REXX_METHOD(TestInt64ToObject, TestInt64ToObject), REXX_METHOD(TestInt64ToObjectAlt, TestInt64ToObjectAlt), REXX_METHOD(TestUnsignedInt64ToObject, TestUnsignedInt64ToObject), REXX_METHOD(TestUnsignedInt64ToObjectAlt, TestUnsignedInt64ToObjectAlt), REXX_METHOD(TestInt32ToObject, TestInt32ToObject), REXX_METHOD(TestInt32ToObjectAlt, TestInt32ToObjectAlt), REXX_METHOD(TestUnsignedInt32ToObject, TestUnsignedInt32ToObject), REXX_METHOD(TestUnsignedInt32ToObjectAlt, TestUnsignedInt32ToObjectAlt), REXX_METHOD(TestIntptrToObject, TestIntptrToObject), REXX_METHOD(TestIntptrToObjectAlt, TestIntptrToObjectAlt), REXX_METHOD(TestUintptrToObject, TestUintptrToObject), REXX_METHOD(TestUintptrToObjectAlt, TestUintptrToObjectAlt), REXX_METHOD(TestLogicalToObject, TestLogicalToObject), REXX_METHOD(TestLogicalToObjectAlt, TestLogicalToObjectAlt), REXX_METHOD(TestDoubleToObject, TestDoubleToObject), REXX_METHOD(TestDoubleToObjectAlt, TestDoubleToObjectAlt), REXX_METHOD(TestObjectToValue, TestObjectToValue), REXX_METHOD(TestOptionalIntArg, TestOptionalIntArg), REXX_METHOD(TestOptionalInt32Arg, TestOptionalInt32Arg), REXX_METHOD(TestOptionalUint32Arg, TestOptionalUint32Arg), REXX_METHOD(TestOptionalInt8Arg, TestOptionalInt8Arg), REXX_METHOD(TestOptionalUint8Arg, TestOptionalUint8Arg), REXX_METHOD(TestOptionalInt16Arg, TestOptionalInt16Arg), REXX_METHOD(TestOptionalUint16Arg, TestOptionalUint16Arg), REXX_METHOD(TestOptionalInt64Arg, TestOptionalInt64Arg), REXX_METHOD(TestOptionalUint64Arg, TestOptionalUint64Arg), REXX_METHOD(TestOptionalIntPtrArg, TestOptionalIntPtrArg), REXX_METHOD(TestOptionalUintPtrArg, TestOptionalUintPtrArg), REXX_METHOD(TestOptionalWholeNumberArg, TestOptionalWholeNumberArg), REXX_METHOD(TestOptionalPositiveWholeNumberArg, TestOptionalPositiveWholeNumberArg), REXX_METHOD(TestOptionalNonnegativeWholeNumberArg, TestOptionalNonnegativeWholeNumberArg), REXX_METHOD(TestOptionalStringSizeArg, TestOptionalStringSizeArg), REXX_METHOD(TestOptionalSizeArg, TestOptionalSizeArg), REXX_METHOD(TestOptionalSSizeArg, TestOptionalSSizeArg), REXX_METHOD(TestOptionalLogicalArg, TestOptionalLogicalArg), REXX_METHOD(TestOptionalFloatArg, TestOptionalFloatArg), REXX_METHOD(TestOptionalDoubleArg, TestOptionalDoubleArg), REXX_METHOD(TestOptionalCstringArg, TestOptionalCstringArg), REXX_METHOD(TestOptionalPointerArg, TestOptionalPointerArg), REXX_METHOD(TestOptionalPointerStringArg, TestOptionalPointerStringArg), REXX_METHOD(TestOptionalStemArg, TestOptionalStemArg), REXX_METHOD(TestOptionalObjectArg, TestOptionalObjectArg), REXX_METHOD(TestOptionalStringArg, TestOptionalStringArg), REXX_METHOD(TestOptionalArrayArg, TestOptionalArrayArg), REXX_METHOD(TestOptionalClassArg, TestOptionalClassArg), REXX_METHOD(TestSuperArg, TestSuperArg), REXX_METHOD(TestScopeArg, TestScopeArg), REXX_METHOD(TestNameArg, TestNameArg), REXX_METHOD(TestArglistArg, TestArglistArg), REXX_METHOD(TestOSelfArg, TestOSelfArg), REXX_METHOD(TestGetArguments, TestGetArguments), REXX_METHOD(TestGetArgument, TestGetArgument), REXX_METHOD(TestGetMessageName, TestGetMessageName), REXX_METHOD(TestGetMessageName, TestGetMessageName), REXX_METHOD(TestGetMethod, TestGetMethod), REXX_METHOD(TestGetSelf, TestGetSelf), REXX_METHOD(TestGetSuper, TestGetSuper), REXX_METHOD(TestGetScope, TestGetScope), REXX_METHOD(TestSetObjectVariable, TestSetObjectVariable), REXX_METHOD(TestGetObjectVariable, TestGetObjectVariable), REXX_METHOD(TestGetObjectVariableOrNil, TestGetObjectVariableOrNil), REXX_METHOD(TestDropObjectVariable, TestDropObjectVariable), REXX_METHOD(TestForwardMessage, TestForwardMessage), REXX_METHOD(TestFindContextClass, TestFindContextClass), REXX_METHOD(TestNewStem, TestNewStem), REXX_METHOD(TestSetStemElement, TestSetStemElement), REXX_METHOD(TestGetStemElement, TestGetStemElement), REXX_METHOD(TestDropStemElement, TestDropStemElement), REXX_METHOD(TestSetStemArrayElement, TestSetStemArrayElement), REXX_METHOD(TestGetStemArrayElement, TestGetStemArrayElement), REXX_METHOD(TestDropStemArrayElement, TestDropStemArrayElement), REXX_METHOD(TestGetAllStemElements, TestGetAllStemElements), REXX_METHOD(TestGetStemValue, TestGetStemValue), REXX_METHOD(TestIsStem, TestIsStem), REXX_METHOD(TestSupplierItem, TestSupplierItem), REXX_METHOD(TestSupplierIndex, TestSupplierIndex), REXX_METHOD(TestSupplierAvailable, TestSupplierAvailable), REXX_METHOD(TestSupplierNext, TestSupplierNext), REXX_METHOD(TestNewSupplier, TestNewSupplier), REXX_METHOD(TestArrayAt, TestArrayAt), REXX_METHOD(TestArrayPut, TestArrayPut), REXX_METHOD(TestArrayAppend, TestArrayAppend), REXX_METHOD(TestArrayAppendString, TestArrayAppendString), REXX_METHOD(TestArraySize, TestArraySize), REXX_METHOD(TestArrayItems, TestArrayItems), REXX_METHOD(TestArrayDimension, TestArrayDimension), REXX_METHOD(TestNewArray, TestNewArray), REXX_METHOD(TestArrayOfOne, TestArrayOfOne), REXX_METHOD(TestArrayOfTwo, TestArrayOfTwo), REXX_METHOD(TestArrayOfThree, TestArrayOfThree), REXX_METHOD(TestArrayOfFour, TestArrayOfFour), REXX_METHOD(TestArrayOfOneAlt, TestArrayOfOneAlt), REXX_METHOD(TestArrayOfTwoAlt, TestArrayOfTwoAlt), REXX_METHOD(TestArrayOfThreeAlt, TestArrayOfThreeAlt), REXX_METHOD(TestArrayOfFourAlt, TestArrayOfFourAlt), REXX_METHOD(TestIsArray, TestIsArray), REXX_METHOD(TestDirectoryPut, TestDirectoryPut), REXX_METHOD(TestDirectoryAt, TestDirectoryAt), REXX_METHOD(TestDirectoryRemove, TestDirectoryRemove), REXX_METHOD(TestNewDirectory, TestNewDirectory), REXX_METHOD(TestIsDirectory, TestIsDirectory), REXX_METHOD(TestStringTablePut, TestStringTablePut), REXX_METHOD(TestStringTableAt, TestStringTableAt), REXX_METHOD(TestStringTableRemove, TestStringTableRemove), REXX_METHOD(TestNewStringTable, TestNewStringTable), REXX_METHOD(TestIsStringTable, TestIsStringTable), REXX_METHOD(TestSendMessage, TestSendMessage), REXX_METHOD(TestSendMessageScoped, TestSendMessageScoped), REXX_METHOD(TestSendMessage0, TestSendMessage0), REXX_METHOD(TestSendMessage1, TestSendMessage1), REXX_METHOD(TestSendMessage2, TestSendMessage2), REXX_METHOD(TestIsInstanceOf, TestIsInstanceOf), REXX_METHOD(TestHasMethod, TestHasMethod), REXX_METHOD(TestLoadPackage, TestLoadPackage), REXX_METHOD(TestLoadPackageFromData, TestLoadPackageFromData), REXX_METHOD(TestFindClass, TestFindClass), REXX_METHOD(TestFindPackageClass, TestFindPackageClass), REXX_METHOD(TestGetPackageRoutines, TestGetPackageRoutines), REXX_METHOD(TestGetPackagePublicRoutines,TestGetPackagePublicRoutines), REXX_METHOD(TestGetPackageClasses, TestGetPackageClasses), REXX_METHOD(TestGetPackagePublicClasses, TestGetPackagePublicClasses), REXX_METHOD(TestGetPackageMethods, TestGetPackageMethods), REXX_METHOD(TestCallRoutine, TestCallRoutine), REXX_METHOD(TestCallProgram, TestCallProgram), REXX_METHOD(TestNewMethod, TestNewMethod), REXX_METHOD(TestNewRoutine, TestNewRoutine), REXX_METHOD(TestIsMethod, TestIsMethod), REXX_METHOD(TestIsRoutine, TestIsRoutine), REXX_METHOD(TestGetMethodPackage, TestGetMethodPackage), REXX_METHOD(TestGetRoutinePackage, TestGetRoutinePackage), REXX_METHOD(TestObjectToString, TestObjectToString), REXX_METHOD(TestStringGet, TestStringGet), REXX_METHOD(TestStringLength, TestStringLength), REXX_METHOD(TestStringData, TestStringData), REXX_METHOD(TestStringUpper, TestStringUpper), REXX_METHOD(TestStringLower, TestStringLower), REXX_METHOD(TestIsString, TestIsString), REXX_METHOD(TestRaiseException0, TestRaiseException0), REXX_METHOD(TestRaiseException1, TestRaiseException1), REXX_METHOD(TestRaiseException2, TestRaiseException2), REXX_METHOD(TestRaiseException, TestRaiseException), REXX_METHOD(TestRaiseCondition, TestRaiseCondition), REXX_METHOD(TestInterpreterVersion, TestInterpreterVersion), REXX_METHOD(TestLanguageLevel, TestLanguageLevel), REXX_METHOD(TestNewStringFromAsciiz, TestNewStringFromAsciiz), REXX_METHOD(TestNewStringFromAsciizAlt, TestNewStringFromAsciizAlt), REXX_METHOD(TestNewString, TestNewString), REXX_METHOD(TestNewStringAlt, TestNewStringAlt), REXX_METHOD(TestCStringToObject, TestCStringToObject), REXX_METHOD(TestObjectToCString, TestObjectToCString), REXX_METHOD(TestNewMutableBuffer, TestNewMutableBuffer), REXX_METHOD(TestIsMutableBuffer, TestIsMutableBuffer), REXX_METHOD(TestMutableBufferLength, TestMutableBufferLength), REXX_METHOD(TestSetMutableBufferLength, TestSetMutableBufferLength), REXX_METHOD(TestMutableBufferCapacity, TestMutableBufferCapacity), REXX_METHOD(TestSetMutableBufferCapacity,TestSetMutableBufferCapacity), REXX_METHOD(TestSetMutableBufferValue, TestSetMutableBufferValue), REXX_METHOD(TestGetMutableBufferValue, TestGetMutableBufferValue), REXX_METHOD(TestAllocateObjectMemory, TestAllocateObjectMemory), REXX_METHOD(TestFreeObjectMemory, TestFreeObjectMemory), REXX_METHOD(TestReallocateObjectMemory, TestReallocateObjectMemory), REXX_METHOD(TestSetObjectMemory, TestSetObjectMemory), REXX_METHOD(TestGetObjectMemory, TestGetObjectMemory), REXX_METHOD(TestGetObjectVariableReference, TestGetObjectVariableReference), REXX_METHOD(TestIsVariableReference, TestIsVariableReference), REXX_METHOD(TestSetVariableReferenceValue, TestSetVariableReferenceValue), REXX_METHOD(TestVariableReferenceName, TestVariableReferenceName), REXX_METHOD(TestVariableReferenceValue, TestVariableReferenceValue), REXX_METHOD(TestThrowException0, TestThrowException0), REXX_METHOD(TestThrowException1, TestThrowException1), REXX_METHOD(TestThrowException2, TestThrowException2), REXX_METHOD(TestThrowException, TestThrowException), REXX_METHOD(TestThrowCondition, TestThrowCondition), REXX_LAST_METHOD() }; RexxPackageEntry UnitTest_package_entry = { STANDARD_PACKAGE_HEADER REXX_INTERPRETER_4_0_0, // anything after 4.0.0 will work "UnitTest", // name of the package "1.0.0", // package information NULL, // no load/unload functions NULL, NULL, // the exported routines orxtest_methods // the exported methods }; // package loading stub. OOREXX_GET_PACKAGE(UnitTest);