/******************************************************************************* (c) 2005-2014 Copyright, Real-Time Innovations, Inc. All rights reserved. RTI grants Licensee a license to use, modify, compile, and create derivative works of the Software. Licensee has the right to distribute object form only for use with RTI products. The Software is provided "as is", with no warranty of any type, including any warranty for fitness for any purpose. RTI is under no obligation to maintain or support the Software. RTI shall not be liable for any incidental or consequential damages arising out of the use or inability to use the software. ******************************************************************************/ /* dynamic_data_nested_struct_example.c This example - creates the type code of for a nested struct (with inner and outer structs) - creates a DynamicData instance - sets the values of the inner struct - shows the differences between set_complex_member and bind_complex_member Example: To run the example application: On Unix: objs//UnionExample On Windows: objs\\UnionExample */ /********* IDL representation for this example ************ struct InnerStruct { double x; double y; }; struct OuterStruct { InnerStruct inner; }; */ #include DDS_TypeCode *inner_struct_get_typecode(struct DDS_TypeCodeFactory *tcf) { static DDS_TypeCode *tc = NULL; struct DDS_StructMemberSeq members = DDS_SEQUENCE_INITIALIZER; DDS_ExceptionCode_t ex; /* First, we create the typeCode for a struct */ tc = DDS_TypeCodeFactory_create_struct_tc( tcf, "InnerStruct", &members, &ex); if (ex != DDS_NO_EXCEPTION_CODE) { fprintf(stderr, "! Unable to create struct TC\n"); goto fail; } /* Member 1 will be a double named x */ DDS_TypeCode_add_member( tc, "x", DDS_TYPECODE_MEMBER_ID_INVALID, DDS_TypeCodeFactory_get_primitive_tc(tcf, DDS_TK_DOUBLE), DDS_TYPECODE_NONKEY_REQUIRED_MEMBER, &ex); if (ex != DDS_NO_EXCEPTION_CODE) { fprintf(stderr, "! Unable to add member x\n"); goto fail; } /* Member 2 will be a double named y */ DDS_TypeCode_add_member( tc, "y", DDS_TYPECODE_MEMBER_ID_INVALID, DDS_TypeCodeFactory_get_primitive_tc(tcf, DDS_TK_DOUBLE), DDS_TYPECODE_NONKEY_REQUIRED_MEMBER, &ex); if (ex != DDS_NO_EXCEPTION_CODE) { fprintf(stderr, "! Unable to add member y\n"); goto fail; } DDS_StructMemberSeq_finalize(&members); return tc; fail: if (tc != NULL) { DDS_TypeCodeFactory_delete_tc(tcf, tc, &ex); } DDS_StructMemberSeq_finalize(&members); return NULL; } DDS_TypeCode *outer_struct_get_typecode(struct DDS_TypeCodeFactory *tcf) { static DDS_TypeCode *tc = NULL; DDS_TypeCode *innerTC = NULL; struct DDS_StructMemberSeq members = DDS_SEQUENCE_INITIALIZER; DDS_ExceptionCode_t ex; /* First, we create the typeCode for a struct */ tc = DDS_TypeCodeFactory_create_struct_tc( tcf, "OuterStruct", &members, &ex); if (ex != DDS_NO_EXCEPTION_CODE) { fprintf(stderr, "! Unable to create struct TC\n"); goto fail; } innerTC = inner_struct_get_typecode(tcf); if (innerTC == NULL) { fprintf(stderr, "! Unable to create struct TC\n"); goto fail; } /* Member 1 of outer struct will be a struct of type inner_struct * called inner*/ DDS_TypeCode_add_member( tc, "inner", DDS_TYPECODE_MEMBER_ID_INVALID, innerTC, DDS_TYPECODE_NONKEY_REQUIRED_MEMBER, &ex); if (ex != DDS_NO_EXCEPTION_CODE) { fprintf(stderr, "! Unable to add member x\n"); goto fail; } if (innerTC != NULL) { DDS_TypeCodeFactory_delete_tc(tcf, innerTC, NULL); } DDS_StructMemberSeq_finalize(&members); return tc; fail: if (tc != NULL) { DDS_TypeCodeFactory_delete_tc(tcf, tc, &ex); } if (innerTC != NULL) { DDS_TypeCodeFactory_delete_tc(tcf, innerTC, NULL); } DDS_StructMemberSeq_finalize(&members); return NULL; } int main() { struct DDS_TypeCode *inner_tc = NULL; struct DDS_TypeCode *outer_tc = NULL; struct DDS_TypeCodeFactory *factory = NULL; DDS_ExceptionCode_t err; DDS_ReturnCode_t retcode; int ret = -1; DDS_DynamicData *outer_data = NULL; DDS_DynamicData *inner_data = NULL; DDS_DynamicData *bounded_data = NULL; /* Getting a reference to the type code factory */ factory = DDS_TypeCodeFactory_get_instance(); if (factory == NULL) { fprintf(stderr, "! Unable to get type code factory singleton\n"); goto fail; } /* Creating the typeCode of the inner_struct */ inner_tc = inner_struct_get_typecode(factory); if (inner_tc == NULL) { fprintf(stderr, "! Unable to create typeCode\n"); goto fail; } /* Creating the typeCode of the outer_struct that contains an inner_struct */ outer_tc = outer_struct_get_typecode(factory); if (inner_tc == NULL) { fprintf(stderr, "! Unable to create typeCode\n"); goto fail; } printf(" Connext Dynamic Data Nested Struct Example \n" "--------------------------------------------\n"); printf(" Data Types\n" "------------------\n"); DDS_TypeCode_print_IDL(inner_tc, 0, &err); DDS_TypeCode_print_IDL(outer_tc, 0, &err); /* Now, we create a dynamicData instance for each type */ outer_data = DDS_DynamicData_new(outer_tc, &DDS_DYNAMIC_DATA_PROPERTY_DEFAULT); if (outer_data == NULL) { fprintf(stderr, "! Unable to create outer dynamicData\n"); goto fail; } inner_data = DDS_DynamicData_new(inner_tc, &DDS_DYNAMIC_DATA_PROPERTY_DEFAULT); if (outer_data == NULL) { fprintf(stderr, "! Unable to create inner dynamicData\n"); goto fail; } /* Setting the inner data */ retcode = DDS_DynamicData_set_double( inner_data, "x", DDS_DYNAMIC_DATA_MEMBER_ID_UNSPECIFIED, 3.14159); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to set value 'x' in the inner struct \n"); goto fail; } retcode = DDS_DynamicData_set_double( inner_data, "y", DDS_DYNAMIC_DATA_MEMBER_ID_UNSPECIFIED, 2.71828); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to set value 'y' in the inner struct\n"); goto fail; } printf("\n\n get/set_complex_member API\n" "----------------------------\n"); /* Using set_complex_member, we copy inner_data values in inner_struct of * outer_data */ printf("Setting initial values of outer_data with " "set_complex_member()\n"); retcode = DDS_DynamicData_set_complex_member( outer_data, "inner", DDS_DYNAMIC_DATA_MEMBER_ID_UNSPECIFIED, inner_data); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to set complex struct value " "(member inner in the outer struct)\n"); goto fail; } DDS_DynamicData_print(outer_data, stdout, 1); retcode = DDS_DynamicData_clear_all_members(inner_data); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to clear all member in the inner data\n"); goto fail; } printf("\n + get_complex_member() called\n"); retcode = DDS_DynamicData_get_complex_member( outer_data, inner_data, "inner", DDS_DYNAMIC_DATA_MEMBER_ID_UNSPECIFIED); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to get complex struct value " "(member inner in the outer struct)\n"); goto fail; } printf("\n + inner_data value\n"); DDS_DynamicData_print(inner_data, stdout, 1); /* get_complex_member made a copy of the inner_struct. If we modify * inner_data values, outer_data inner_struct WILL NOT be modified. */ printf("\n + setting new values to inner_data\n"); retcode = DDS_DynamicData_set_double( inner_data, "x", DDS_DYNAMIC_DATA_MEMBER_ID_UNSPECIFIED, 1.00000); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to set value 'x' in the inner struct \n"); goto fail; } retcode = DDS_DynamicData_set_double( inner_data, "y", DDS_DYNAMIC_DATA_MEMBER_ID_UNSPECIFIED, 0.00001); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to set value 'y' in the inner struct \n"); goto fail; } DDS_DynamicData_print(inner_data, stdout, 1); /* Current value of outer_data * outer_data: * inner: * x: 3.141590 * y: 2.718280 * * inner_data: * x: 1.000000 * y: 0.000010 */ printf("\n + current outer_data value \n"); DDS_DynamicData_print(outer_data, stdout, 1); /* Bind/Unbind member API */ printf("\n\n bind/unbind API\n" "------------------\n"); printf("Creating a new dynamic data called bounded_data\n"); bounded_data = DDS_DynamicData_new(NULL, &DDS_DYNAMIC_DATA_PROPERTY_DEFAULT); if (bounded_data == NULL) { fprintf(stderr, "! Unable to create new dynamic data\n"); goto fail; } printf("\n + binding bounded_data to outer_data's inner_struct\n"); /* Using bind_complex_member, we do not copy inner_struct, but bind it. * So, if we modify bounded_data, the inner member inside outer_data WILL * also be modified */ retcode = DDS_DynamicData_bind_complex_member( outer_data, bounded_data, "inner", DDS_DYNAMIC_DATA_MEMBER_ID_UNSPECIFIED); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to bind the structs\n"); goto fail; } DDS_DynamicData_print(bounded_data, stdout, 1); printf("\n + setting new values to bounded_data\n"); retcode = DDS_DynamicData_set_double( bounded_data, "x", DDS_DYNAMIC_DATA_MEMBER_ID_UNSPECIFIED, 1.00000); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to set value to 'x' with the bounded data\n"); goto fail; } retcode = DDS_DynamicData_set_double( bounded_data, "y", DDS_DYNAMIC_DATA_MEMBER_ID_UNSPECIFIED, 0.00001); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to set value to 'x' with the bounded data\n"); goto fail; } /* Current value of outer data * outer: * inner: * x: 1.000000 * y: 0.000010 */ DDS_DynamicData_print(bounded_data, stdout, 1); retcode = DDS_DynamicData_unbind_complex_member(outer_data, bounded_data); if (retcode != DDS_RETCODE_OK) { fprintf(stderr, "! Unable to unbind the data\n"); goto fail; } printf("\n + current outer_data value \n"); DDS_DynamicData_print(outer_data, stdout, 1); ret = 1; fail: if (inner_tc != NULL) { DDS_TypeCodeFactory_delete_tc(factory, inner_tc, NULL); } if (outer_tc != NULL) { DDS_TypeCodeFactory_delete_tc(factory, outer_tc, NULL); } if (inner_data != NULL) { DDS_DynamicData_delete(inner_data); } if (outer_data != NULL) { DDS_DynamicData_delete(outer_data); } if (bounded_data != NULL) { DDS_DynamicData_delete(bounded_data); } return ret; }