std::shared_ptr< ConfigValue > TypelibConfiguration::getFromArray(Typelib::Value& value) { std::shared_ptr<ArrayConfigValue> config(new ArrayConfigValue()); const Typelib::Array &array = static_cast<const Typelib::Array &>(value.getType()); config->setCxxTypeName(array.getName()); void *data = value.getData(); const Typelib::Type &indirect(array.getIndirection()); for(size_t i = 0; i < array.getDimension(); i++) { Typelib::Value arrayV(static_cast<uint8_t *>(data) + i * indirect.getSize(), indirect); config->addValue(getFromValue(arrayV)); } return config; }
std::shared_ptr< ConfigValue > TypelibConfiguration::getFromEnum(Typelib::Value& value) { const Typelib::Enum &enumT = static_cast<const Typelib::Enum &>(value.getType()); Typelib::Enum::integral_type *intVal = (static_cast<Typelib::Enum::integral_type *>(value.getData())); std::shared_ptr<SimpleConfigValue> config(new SimpleConfigValue(enumT.get(*intVal))); config->setCxxTypeName(enumT.getName()); return config; }
std::shared_ptr< ConfigValue > TypelibConfiguration::getFromCompound(Typelib::Value& value) { std::shared_ptr<ComplexConfigValue> config(new ComplexConfigValue()); config->setCxxTypeName(value.getType().getName()); const Typelib::Compound &comp = static_cast<const Typelib::Compound &>(value.getType()); uint8_t *data = static_cast<uint8_t *>( value.getData()); for(const Typelib::Field &field: comp.getFields()) { Typelib::Value fieldV(data + field.getOffset(), field.getType()); std::shared_ptr< ConfigValue > convV = getFromValue(fieldV); convV->setName(field.getName()); config->addValue(field.getName(), convV); } return config; }
std::shared_ptr< ConfigValue > TypelibConfiguration::getFromContainer(Typelib::Value& value) { const Typelib::Container &cont = static_cast<const Typelib::Container &>(value.getType()); const size_t size = cont.getElementCount(value.getData()); if(cont.kind() == "/std/string") { const std::string *content = static_cast<const std::string *>(value.getData()); std::shared_ptr<SimpleConfigValue> config(new SimpleConfigValue(*content)); config->setCxxTypeName(value.getType().getName()); return config; } //std::vector std::shared_ptr<ArrayConfigValue> array(new ArrayConfigValue()); array->setCxxTypeName(value.getType().getName()); for(size_t i = 0; i < size; i++) { Typelib::Value elem = cont.getElement(value.getData(), i); array->addValue(getFromValue(elem)); } return array; }
std::shared_ptr< ConfigValue > TypelibConfiguration::getFromValue(Typelib::Value& value) { const Typelib::Type &type(value.getType()); switch(type.getCategory()) { case Typelib::Type::Array: return getFromArray(value); break; case Typelib::Type::Compound: return getFromCompound(value); break; case Typelib::Type::Container: return getFromContainer(value); break; case Typelib::Type::Enum: return getFromEnum(value); break; case Typelib::Type::NullType: break; case Typelib::Type::Numeric: return getFromNumeric(value); break; case Typelib::Type::Opaque: break; case Typelib::Type::Pointer: break; default: throw std::runtime_error("Got Unsupported Category"); } std::shared_ptr<SimpleConfigValue> config(new SimpleConfigValue("Nothing")); config->setName("Unsupported"); return config; }
std::shared_ptr< ConfigValue > TypelibConfiguration::getFromNumeric(Typelib::Value& value) { const Typelib::Numeric &numeric(static_cast<const Typelib::Numeric &>(value.getType())); std::string valueS; switch(numeric.getNumericCategory()) { case Typelib::Numeric::Float: if(numeric.getSize() == sizeof(float)) { valueS = getValue<float>(value); } else { valueS = getValue<double>(value); } break; case Typelib::Numeric::SInt: switch(numeric.getSize()) { case sizeof(int8_t): valueS = getValue<int8_t>(value); break; case sizeof(int16_t): valueS = getValue<int16_t>(value); break; case sizeof(int32_t): valueS = getValue<int32_t>(value); break; case sizeof(int64_t): valueS = getValue<int64_t>(value); break; default: std::cout << "Error, got integer of unexpected size " << numeric.getSize() << std::endl; return false; break; } break; case Typelib::Numeric::UInt: { switch(numeric.getSize()) { case sizeof(uint8_t): valueS = getValue<uint8_t>(value); break; case sizeof(uint16_t): valueS = getValue<uint16_t>(value); break; case sizeof(uint32_t): valueS = getValue<uint32_t>(value); break; case sizeof(uint64_t): valueS = getValue<uint64_t>(value); break; default: std::cout << "Error, got integer of unexpected size " << numeric.getSize() << std::endl; return false; break; } } break; case Typelib::Numeric::NumberOfValidCategories: throw std::runtime_error("Internal Error: Got invalid Category"); break; } std::shared_ptr<SimpleConfigValue> config(new SimpleConfigValue(valueS)); config->setCxxTypeName(numeric.getName()); return config; }
std::string getValue(const Typelib::Value& value) { T *val = static_cast<T *>(value.getData()); return boost::lexical_cast<std::string>(*val); }
void TypelibMarshallerBase::setTypelibSample(Handle* data, Typelib::Value typelib_data, bool refresh_orocos) { return setTypelibSample(data, reinterpret_cast<uint8_t*>(typelib_data.getData()), refresh_orocos); }