// ====================================================================== // \title Enum1ArrayAc.cpp // \author Generated by fpp-to-cpp // \brief cpp file for Enum1 array // ====================================================================== #include #include #include #include "Fw/Types/Assert.hpp" #include "Fw/Types/StringUtils.hpp" #include "Enum1ArrayAc.hpp" // ---------------------------------------------------------------------- // Constructors // ---------------------------------------------------------------------- Enum1 :: Enum1() : Serializable() { // Construct using element-wise constructor *this = Enum1( M::E1::X, M::E1::Y ); } Enum1 :: Enum1(const ElementType (&a)[SIZE]) : Serializable() { for (U32 index = 0; index < SIZE; index++) { this->elements[index] = a[index]; } } Enum1 :: Enum1(const ElementType& e) : Serializable() { for (U32 index = 0; index < SIZE; index++) { this->elements[index] = e; } } Enum1 :: Enum1( const ElementType& e1, const ElementType& e2 ) : Serializable() { this->elements[0] = e1; this->elements[1] = e2; } Enum1 :: Enum1(const Enum1& obj) : Serializable() { for (U32 index = 0; index < SIZE; index++) { this->elements[index] = obj.elements[index]; } } // ---------------------------------------------------------------------- // Operators // ---------------------------------------------------------------------- Enum1::ElementType& Enum1 :: operator[](const U32 i) { FW_ASSERT(i < SIZE); return this->elements[i]; } const Enum1::ElementType& Enum1 :: operator[](const U32 i) const { FW_ASSERT(i < SIZE); return this->elements[i]; } Enum1& Enum1 :: operator=(const Enum1& obj) { if (this == &obj) { return *this; } for (U32 index = 0; index < SIZE; index++) { this->elements[index] = obj.elements[index]; } return *this; } Enum1& Enum1 :: operator=(const ElementType (&a)[SIZE]) { for (U32 index = 0; index < SIZE; index++) { this->elements[index] = a[index]; } return *this; } Enum1& Enum1 :: operator=(const ElementType& e) { for (U32 index = 0; index < SIZE; index++) { this->elements[index] = e; } return *this; } bool Enum1 :: operator==(const Enum1& obj) const { for (U32 index = 0; index < SIZE; index++) { if (!((*this)[index] == obj[index])) { return false; } } return true; } bool Enum1 :: operator!=(const Enum1& obj) const { return !(*this == obj); } #ifdef BUILD_UT std::ostream& operator<<(std::ostream& os, const Enum1& obj) { Fw::String s; obj.toString(s); os << s; return os; } #endif // ---------------------------------------------------------------------- // Member functions // ---------------------------------------------------------------------- Fw::SerializeStatus Enum1 :: serialize(Fw::SerializeBufferBase& buffer) const { Fw::SerializeStatus status = Fw::FW_SERIALIZE_OK; for (U32 index = 0; index < SIZE; index++) { status = buffer.serialize((*this)[index]); if (status != Fw::FW_SERIALIZE_OK) { return status; } } return status; } Fw::SerializeStatus Enum1 :: deserialize(Fw::SerializeBufferBase& buffer) { Fw::SerializeStatus status = Fw::FW_SERIALIZE_OK; for (U32 index = 0; index < SIZE; index++) { status = buffer.deserialize((*this)[index]); if (status != Fw::FW_SERIALIZE_OK) { return status; } } return status; } #if FW_ARRAY_TO_STRING || BUILD_UT void Enum1 :: toString(Fw::StringBase& sb) const { static const char *formatString = "[ " "%s " "%s ]"; // Call toString for arrays and serializable types Fw::String str0; Fw::String str1; this->elements[0].toString(str0); this->elements[1].toString(str1); // Declare strings to hold any serializable toString() arguments char outputString[FW_ARRAY_TO_STRING_BUFFER_SIZE]; (void) snprintf( outputString, FW_ARRAY_TO_STRING_BUFFER_SIZE, formatString, str0.toChar(), str1.toChar() ); outputString[FW_ARRAY_TO_STRING_BUFFER_SIZE-1] = 0; // NULL terminate sb = outputString; } #endif