dbcppp/src/libdbcppp/CApi.cpp at master · bytebeamio/dbcppp

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#include "../../include/dbcppp/CApi.h"

#include "NetworkImpl.h"

#include "EnvironmentVariableImpl.h"

using namespace dbcppp;

extern "C"

{

DBCPPP_API const dbcppp_Attribute* dbcppp_AttributeCreate(

const char* name,

dbcppp_EObjectType object_type,

dbcppp_EAttributeValueType value_type,

const void* value)

{

IAttributeDefinition::EObjectType ot;

switch (object_type)

{

case dbcppp_EObjectType::dbcppp_ObjectType_Network: ot = IAttributeDefinition::EObjectType::Network; break;

case dbcppp_EObjectType::dbcppp_ObjectType_Node: ot = IAttributeDefinition::EObjectType::Node; break;

case dbcppp_EObjectType::dbcppp_ObjectType_Message: ot = IAttributeDefinition::EObjectType::Message; break;

case dbcppp_EObjectType::dbcppp_ObjectType_Signal: ot = IAttributeDefinition::EObjectType::Signal; break;

default: ot = IAttributeDefinition::EObjectType::EnvironmentVariable; break;

}

std::unique_ptr<IAttribute> attribute;

switch (value_type)

{

case dbcppp_EAttributeValueType::dbcppp_AttributeValueType_Int:

attribute = IAttribute::Create(std::string(name), ot, *reinterpret_cast<const int64_t*>(value));

break;

case dbcppp_EAttributeValueType::dbcppp_AttributeValueType_Double:

attribute = IAttribute::Create(std::string(name), ot, *reinterpret_cast<const double*>(value));

break;

case dbcppp_EAttributeValueType::dbcppp_AttributeValueType_String:

attribute = IAttribute::Create(std::string(name), ot, std::string(reinterpret_cast<const char*>(value)));

break;

}

return reinterpret_cast<const dbcppp_Attribute*>(attribute.release());

}

DBCPPP_API void dbcppp_AttributeFree(const dbcppp_Attribute* attribute)

{

std::unique_ptr<const AttributeImpl>(reinterpret_cast<const AttributeImpl*>(attribute));

}

DBCPPP_API const char* dbcppp_AttributeName(const dbcppp_Attribute* attribute)

{

auto ai = reinterpret_cast<const AttributeImpl*>(attribute);

return ai->Name().c_str();

}

DBCPPP_API dbcppp_EObjectType dbcppp_AttributeObjectType(const dbcppp_Attribute* attribute)

{

auto ai = reinterpret_cast<const AttributeImpl*>(attribute);

switch (ai->ObjectType())

{

case IAttributeDefinition::EObjectType::Network: return dbcppp_EObjectType::dbcppp_ObjectType_Network;

case IAttributeDefinition::EObjectType::Node: return dbcppp_EObjectType::dbcppp_ObjectType_Node;

case IAttributeDefinition::EObjectType::Message: return dbcppp_EObjectType::dbcppp_ObjectType_Message;

case IAttributeDefinition::EObjectType::Signal: return dbcppp_EObjectType::dbcppp_ObjectType_Signal;

default: return dbcppp_EObjectType::dbcppp_ObjectType_EnvironmentVariable;

}

DBCPPP_API dbcppp_EAttributeValueType dbcppp_AttributeValueType(const dbcppp_Attribute* attribute)

{

auto ai = reinterpret_cast<const AttributeImpl*>(attribute);

if (std::get_if<int64_t>(&ai->Value()))

{

return dbcppp_EAttributeValueType::dbcppp_AttributeValueType_Int;

}

else if (std::get_if<double>(&ai->Value()))

{

return dbcppp_EAttributeValueType::dbcppp_AttributeValueType_Double;

}

else

{

return dbcppp_EAttributeValueType::dbcppp_AttributeValueType_String;

}

DBCPPP_API int64_t dbcppp_AttributeValueAsInt(const dbcppp_Attribute* attribute)

{

auto ai = reinterpret_cast<const AttributeImpl*>(attribute);

return std::get<int64_t>(ai->Value());

}

DBCPPP_API double dbcppp_AttributeValueAsDouble(const dbcppp_Attribute* attribute)

{

auto ai = reinterpret_cast<const AttributeImpl*>(attribute);

return std::get<double>(ai->Value());

}

DBCPPP_API const char* dbcppp_AttributeValueAsString(const dbcppp_Attribute* attribute)

{

auto ai = reinterpret_cast<const AttributeImpl*>(attribute);

return std::get<std::string>(ai->Value()).c_str();

}

DBCPPP_API dbcppp_AttributeDefinition* dbcppp_AttributeDefinitionCreate(

const char* name

, dbcppp_EObjectType object_type

, dbcppp_EAttributeDefinitionValueType value_type

, const void* value)

{

IAttributeDefinition::EObjectType ot;

switch (object_type)

{

case dbcppp_EObjectType::dbcppp_ObjectType_Network: ot = IAttributeDefinition::EObjectType::Network; break;

case dbcppp_EObjectType::dbcppp_ObjectType_Node: ot = IAttributeDefinition::EObjectType::Node; break;

case dbcppp_EObjectType::dbcppp_ObjectType_Message: ot = IAttributeDefinition::EObjectType::Message; break;

case dbcppp_EObjectType::dbcppp_ObjectType_Signal: ot = IAttributeDefinition::EObjectType::Signal; break;

default: ot = IAttributeDefinition::EObjectType::EnvironmentVariable; break;

}

IAttributeDefinition::value_type_t vt;

switch (value_type)

{

case dbcppp_EAttributeDefinitionValueType::dbcppp_AttributeDefinitionValueTypeInt:

{

IAttributeDefinition::ValueTypeInt vti;

vti.minimum = reinterpret_cast<const int64_t*>(value)[0];

vti.maximum = reinterpret_cast<const int64_t*>(value)[1];

vt = vti;

break;

}

case dbcppp_EAttributeDefinitionValueType::dbcppp_AttributeDefinitionValueTypeHex:

{

IAttributeDefinition::ValueTypeHex vtui;

vtui.minimum = reinterpret_cast<const uint64_t*>(value)[0];

vtui.maximum = reinterpret_cast<const uint64_t*>(value)[1];

vt = vtui;

break;

}

case dbcppp_EAttributeDefinitionValueType::dbcppp_AttributeDefinitionValueTypeFloat:

{

IAttributeDefinition::ValueTypeFloat vtd;

vtd.minimum = reinterpret_cast<const double*>(value)[0];

vtd.maximum = reinterpret_cast<const double*>(value)[1];

vt = vtd;

break;

}

case dbcppp_EAttributeDefinitionValueType::dbcppp_AttributeDefinitionValueTypeString:

{

IAttributeDefinition::ValueTypeString vts;

vt = vts;

break;

}

case dbcppp_EAttributeDefinitionValueType::dbcppp_AttributeDefinitionValueTypeEnum:

{

IAttributeDefinition::ValueTypeEnum vte;

const char* const* values = reinterpret_cast<const char* const*>(value);

for (; *values; values++)

{

vte.values.push_back(*values);

}

vt = std::move(vte);

break;

}

auto result = IAttributeDefinition::Create(std::string(name), ot, std::move(vt));

return reinterpret_cast<dbcppp_AttributeDefinition*>(result.release());

}

DBCPPP_API void dbcppp_AttributeDefinitionFree(const dbcppp_AttributeDefinition* attribute_defintion)

{

std::unique_ptr<const AttributeDefinitionImpl>(reinterpret_cast<const AttributeDefinitionImpl*>(attribute_defintion));

}

DBCPPP_API dbcppp_EObjectType dbcppp_AttributeDefinitionObjectType(const dbcppp_AttributeDefinition* attribute_definition)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

switch (ad->ObjectType())

{

case IAttributeDefinition::EObjectType::Network: return dbcppp_EObjectType::dbcppp_ObjectType_Network;

case IAttributeDefinition::EObjectType::Node: return dbcppp_EObjectType::dbcppp_ObjectType_Node;

case IAttributeDefinition::EObjectType::Message: return dbcppp_EObjectType::dbcppp_ObjectType_Message;

case IAttributeDefinition::EObjectType::Signal: return dbcppp_EObjectType::dbcppp_ObjectType_Signal;

default: return dbcppp_EObjectType::dbcppp_ObjectType_EnvironmentVariable;

}

DBCPPP_API const char* dbcppp_AttributeDefinitionName(const dbcppp_AttributeDefinition* attribute_definition)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

return ad->Name().c_str();

}

DBCPPP_API dbcppp_EAttributeDefinitionValueType dbcppp_AttributeDefinitionValueType(const dbcppp_AttributeDefinition* attribute_definition)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

if (std::get_if<IAttributeDefinition::ValueTypeInt>(&ad->ValueType()))

{

return dbcppp_EAttributeDefinitionValueType::dbcppp_AttributeDefinitionValueTypeInt;

}

else if (std::get_if<IAttributeDefinition::ValueTypeHex>(&ad->ValueType()))

{

return dbcppp_EAttributeDefinitionValueType::dbcppp_AttributeDefinitionValueTypeHex;

}

else if (std::get_if<IAttributeDefinition::ValueTypeFloat>(&ad->ValueType()))

{

return dbcppp_EAttributeDefinitionValueType::dbcppp_AttributeDefinitionValueTypeFloat;

}

else if (std::get_if<IAttributeDefinition::ValueTypeString>(&ad->ValueType()))

{

return dbcppp_EAttributeDefinitionValueType::dbcppp_AttributeDefinitionValueTypeString;

}

else

{

return dbcppp_EAttributeDefinitionValueType::dbcppp_AttributeDefinitionValueTypeEnum;

}

DBCPPP_API int64_t dbcppp_AttributeDefinitionValueTypeAsInt_Minimum(const dbcppp_AttributeDefinition* attribute_definition)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

return std::get<IAttributeDefinition::ValueTypeInt>(ad->ValueType()).minimum;

}

DBCPPP_API int64_t dbcppp_AttributeDefinitionValueTypeAsInt_Maximum(const dbcppp_AttributeDefinition* attribute_definition)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

return std::get<IAttributeDefinition::ValueTypeInt>(ad->ValueType()).maximum;

}

DBCPPP_API uint64_t dbcppp_AttributeDefinitionValueTypeAsHex_Minimum(const dbcppp_AttributeDefinition* attribute_definition)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

return std::get<IAttributeDefinition::ValueTypeHex>(ad->ValueType()).minimum;

}

DBCPPP_API uint64_t dbcppp_AttributeDefinitionValueTypeAsHex_Maximum(const dbcppp_AttributeDefinition* attribute_definition)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

return std::get<IAttributeDefinition::ValueTypeHex>(ad->ValueType()).maximum;

}

DBCPPP_API double dbcppp_AttributeDefinitionValueTypeAsFloat_Minimum(const dbcppp_AttributeDefinition* attribute_definition)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

return std::get<IAttributeDefinition::ValueTypeFloat>(ad->ValueType()).minimum;

}

DBCPPP_API double dbcppp_AttributeDefinitionValueTypeAsFloat_Maximum(const dbcppp_AttributeDefinition* attribute_definition)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

return std::get<IAttributeDefinition::ValueTypeFloat>(ad->ValueType()).maximum;

}

DBCPPP_API const char* dbcppp_AttributeDefinitionValueTypeAsEnum_Get(const dbcppp_AttributeDefinition* attribute_definition, uint64_t i)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

const auto& vte = std::get<IAttributeDefinition::ValueTypeEnum>(ad->ValueType());

return vte.values[i].c_str();

}

DBCPPP_API uint64_t dbcppp_AttributeDefinitionValueTypeAsEnum_Size(const dbcppp_AttributeDefinition* attribute_definition)

{

auto ad = reinterpret_cast<const AttributeDefinitionImpl*>(attribute_definition);

const auto& vte = std::get<IAttributeDefinition::ValueTypeEnum>(ad->ValueType());

return vte.values.size();

}

DBCPPP_API const dbcppp_BitTiming* dbcppp_BitTimingCreate(uint64_t baudrate, uint64_t BTR1, uint64_t BTR2)

{

auto bit_timing = IBitTiming::Create(baudrate, BTR1, BTR2);

return reinterpret_cast<const dbcppp_BitTiming*>(bit_timing.release());

}

DBCPPP_API void dbcppp_BitTimingFree(const dbcppp_BitTiming* bit_timing)

{

std::unique_ptr<const BitTimingImpl>(reinterpret_cast<const BitTimingImpl*>(bit_timing));

}

DBCPPP_API uint64_t dbcppp_BitTimingBaudrate(const dbcppp_BitTiming* bit_timing)

{

auto bti = reinterpret_cast<const BitTimingImpl*>(bit_timing);

return bti->Baudrate();

}

DBCPPP_API uint64_t dbcppp_BitTimingBTR1(const dbcppp_BitTiming* bit_timing)

{

auto bti = reinterpret_cast<const BitTimingImpl*>(bit_timing);

return bti->BTR1();

}

DBCPPP_API uint64_t dbcppp_BitTimingBTR2(const dbcppp_BitTiming* bit_timing)

{

auto bti = reinterpret_cast<const BitTimingImpl*>(bit_timing);

return bti->BTR2();

}

DBCPPP_API const dbcppp_EnvironmentVariable* dbcppp_EnvironmentVariableCreate(

const char* name

, dbcppp_EEnvironmentVariableVarType var_type

, double minimum

, double maximum

, const char* unit

, double initial_value

, uint64_t ev_id

, dbcppp_EEnvironmentVariableAccessType access_type

, const char** access_nodes

, dbcppp_ValueEncodingDescription** value_encoding_descriptions

, uint64_t data_size

, dbcppp_Attribute** attribute_values

, const char* comment)

{

IEnvironmentVariable::EVarType vt;

IEnvironmentVariable::EAccessType at;

std::vector<std::string> ans;

std::vector<std::unique_ptr<IValueEncodingDescription>> vds;

std::vector<std::unique_ptr<IAttribute>> avs;

switch (var_type)

{

case dbcppp_EEnvironmentVariableVarType::dbcppp_EnvironmentVariableVarTypeInteger:

vt = IEnvironmentVariable::EVarType::Integer;

break;

case dbcppp_EEnvironmentVariableVarType::dbcppp_EnvironmentVariableVarTypeFloat:

vt = IEnvironmentVariable::EVarType::Float;

break;

case dbcppp_EEnvironmentVariableVarType::dbcppp_EnvironmentVariableVarTypeString:

vt = IEnvironmentVariable::EVarType::String;

break;

default:

vt = IEnvironmentVariable::EVarType::Data;

break;

}

switch (access_type)

{

case dbcppp_EEnvironmentVariableAccessType::dbcppp_EnvironmentVariableAccessTypeUnrestricted:

at = IEnvironmentVariable::EAccessType::Unrestricted;

break;

case dbcppp_EEnvironmentVariableAccessType::dbcppp_EnvironmentVariableAccessTypeRead:

at = IEnvironmentVariable::EAccessType::Read;

break;

case dbcppp_EEnvironmentVariableAccessType::dbcppp_EnvironmentVariableAccessTypeWrite:

at = IEnvironmentVariable::EAccessType::Write;

break;

default:

at = IEnvironmentVariable::EAccessType::ReadWrite;

break;

}

for (; *access_nodes; access_nodes++)

{

ans.push_back(*access_nodes);

*access_nodes = nullptr;

}

for (; *value_encoding_descriptions; value_encoding_descriptions++)

{

ValueEncodingDescriptionImpl* ved = reinterpret_cast<ValueEncodingDescriptionImpl*>(*value_encoding_descriptions);

vds.push_back(std::unique_ptr<ValueEncodingDescriptionImpl>(ved));

*value_encoding_descriptions = nullptr;

}

for (; *attribute_values; attribute_values++)

{

AttributeImpl* attr = reinterpret_cast<AttributeImpl*>(*attribute_values);

avs.push_back(std::unique_ptr<AttributeImpl>(attr));

*attribute_values = nullptr;

}

auto environment_variable = IEnvironmentVariable::Create(

std::string(name)

, vt

, minimum

, maximum

, std::string(unit)

, initial_value

, ev_id

, at

, std::move(ans)

, std::move(vds)

, data_size

, std::move(avs)

, std::string(comment));

return reinterpret_cast<const dbcppp_EnvironmentVariable*>(environment_variable.release());

}

DBCPPP_API void dbcppp_EnvironmentVariableFree(const dbcppp_EnvironmentVariable* env_var)

{

std::unique_ptr<const EnvironmentVariableImpl>(reinterpret_cast<const EnvironmentVariableImpl*>(env_var));

}

DBCPPP_API const char* dbcppp_EnvironmentVariableName(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->Name().c_str();

}

DBCPPP_API dbcppp_EEnvironmentVariableVarType dbcppp_EnvironmentVariableVarType(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

switch (env_var_i->VarType())

{

case IEnvironmentVariable::EVarType::Integer: return dbcppp_EEnvironmentVariableVarType::dbcppp_EnvironmentVariableVarTypeInteger;

case IEnvironmentVariable::EVarType::Float: return dbcppp_EEnvironmentVariableVarType::dbcppp_EnvironmentVariableVarTypeFloat;

case IEnvironmentVariable::EVarType::String: return dbcppp_EEnvironmentVariableVarType::dbcppp_EnvironmentVariableVarTypeString;

default: return dbcppp_EEnvironmentVariableVarType::dbcppp_EnvironmentVariableVarTypeData;

}

DBCPPP_API double dbcppp_EnvironmentVariableMinimum(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->Minimum();

}

DBCPPP_API double dbcppp_EnvironmentVariableMaximum(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->Maximum();

}

DBCPPP_API const char* dbcppp_EnvironmentVariableUnit(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->Unit().c_str();

}

DBCPPP_API double dbcppp_EnvironmentVariableInitialValue(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->InitialValue();

}

DBCPPP_API uint64_t dbcppp_EnvironmentVariableEvId(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->EvId();

}

DBCPPP_API dbcppp_EEnvironmentVariableAccessType dbcppp_EnvironmentVariableAccessType(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

switch (env_var_i->AccessType())

{

case IEnvironmentVariable::EAccessType::Unrestricted: return dbcppp_EEnvironmentVariableAccessType::dbcppp_EnvironmentVariableAccessTypeUnrestricted;

case IEnvironmentVariable::EAccessType::Read: return dbcppp_EEnvironmentVariableAccessType::dbcppp_EnvironmentVariableAccessTypeRead;

case IEnvironmentVariable::EAccessType::Write: return dbcppp_EEnvironmentVariableAccessType::dbcppp_EnvironmentVariableAccessTypeWrite;

default: return dbcppp_EEnvironmentVariableAccessType::dbcppp_EnvironmentVariableAccessTypeReadWrite;

}

DBCPPP_API const char* dbcppp_EnvironmentVariableAccessNodes_Get(const dbcppp_EnvironmentVariable* env_var, uint64_t i)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->AccessNodes_Get(i).c_str();

}

DBCPPP_API uint64_t dbcppp_EnvironmentVariableAccessNodes_Size(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->AccessNodes_Size();

}

DBCPPP_API uint64_t dbcppp_EnvironmentVariableValueEncodingDescriptions_GetValue(const dbcppp_EnvironmentVariable* env_var, int64_t i)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->ValueEncodingDescriptions_Get(i).Value();

}

DBCPPP_API const char* dbcppp_EnvironmentVariableValueEncodingDescriptions_GetDescription(const dbcppp_EnvironmentVariable* env_var, int64_t i)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->ValueEncodingDescriptions_Get(i).Description().c_str();

}

DBCPPP_API uint64_t dbcppp_EnvironmentVariableValueEncodingDescriptions_Size(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->ValueEncodingDescriptions_Size();

}

DBCPPP_API uint64_t dbcppp_EnvironmentVariableDataSize(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->DataSize();

}

DBCPPP_API const dbcppp_Attribute* dbcppp_EnvironmentVariableAttributeValues_Get(const dbcppp_EnvironmentVariable* env_var, uint64_t i)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return reinterpret_cast<const dbcppp_Attribute*>(&env_var_i->AttributeValues_Get(i));

}

DBCPPP_API uint64_t dbcppp_EnvironmentVariableAttributeValues_Size(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->AttributeValues_Size();

}

DBCPPP_API const char* dbcppp_EnvironmentVariableComment(const dbcppp_EnvironmentVariable* env_var)

{

auto env_var_i = reinterpret_cast<const EnvironmentVariableImpl*>(env_var);

return env_var_i->Comment().c_str();

}

DBCPPP_API const dbcppp_Message* dbcppp_MessageCreate(

uint64_t id

, const char* name

, uint64_t message_size

, const char* transmitter

, const char** message_transmitters

, dbcppp_Signal** signals

, dbcppp_Attribute** attribute_values

, const char* comment)

{

std::vector<std::string> msg_trans;

std::vector<std::unique_ptr<ISignal>> sigs;

std::vector<std::unique_ptr<IAttribute>> attrs;

for (; *message_transmitters; message_transmitters++)

{

msg_trans.push_back(*message_transmitters);

*message_transmitters = nullptr;

}

for (; *signals; signals++)

{

SignalImpl* si = reinterpret_cast<SignalImpl*>(*signals);

sigs.push_back(std::unique_ptr<SignalImpl>(si));

*signals = nullptr;

}

for (; *attribute_values; attribute_values++)

{

AttributeImpl* attr = reinterpret_cast<AttributeImpl*>(*attribute_values);

attrs.push_back(std::unique_ptr<AttributeImpl>(attr));

*attribute_values = nullptr;

}

auto result = IMessage::Create(

, std::string(name)

, message_size

, std::string(transmitter)

, std::move(msg_trans)

, std::move(sigs)

, std::move(attrs)

, std::string(comment)

, {});

return reinterpret_cast<const dbcppp_Message*>(result.release());

}

DBCPPP_API void dbcppp_MessageFree(const dbcppp_Message* msg)

{

std::unique_ptr<const MessageImpl>(reinterpret_cast<const MessageImpl*>(msg));

}

DBCPPP_API uint64_t dbcppp_MessageId(const dbcppp_Message* msg)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return msgi->Id();

}

DBCPPP_API const char* dbcppp_MessageName(const dbcppp_Message* msg)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return msgi->Name().c_str();

}

DBCPPP_API uint64_t dbcppp_MessageMessageSize(const dbcppp_Message* msg)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return msgi->MessageSize();

}

DBCPPP_API const char* dbcppp_MessageTransmitter(const dbcppp_Message* msg)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return msgi->Transmitter().c_str();

}

DBCPPP_API const char* dbcppp_MessageTransmitters_Get(const dbcppp_Message* msg, uint64_t i)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return msgi->MessageTransmitters_Get(i).c_str();

}

DBCPPP_API uint64_t dbcppp_MessageTransmitters_Size(const dbcppp_Message* msg)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return msgi->MessageTransmitters_Size();

}

DBCPPP_API const dbcppp_Signal* dbcppp_MessageSignals_Get(const dbcppp_Message* msg, uint64_t i)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return reinterpret_cast<const dbcppp_Signal*>(&msgi->Signals_Get(i));

}

DBCPPP_API uint64_t dbcppp_MessageSignals_Size(const dbcppp_Message* msg)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return msgi->Signals_Size();

}

DBCPPP_API const dbcppp_Attribute* dbcppp_MessageAttributeValues_Get(const dbcppp_Message* msg, uint64_t i)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return reinterpret_cast<const dbcppp_Attribute*>(&msgi->AttributeValues_Get(i));

}

DBCPPP_API uint64_t dbcppp_MessageAttributeValues_Size(const dbcppp_Message* msg)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return msgi->AttributeValues_Size();

}

DBCPPP_API const char* dbcppp_MessageComment(const dbcppp_Message* msg)

{

auto msgi = reinterpret_cast<const MessageImpl*>(msg);

return msgi->Comment().c_str();

}

DBCPPP_API const dbcppp_Network* dbcppp_NetworkCreate(

const char* version

, const char** new_symbols

, dbcppp_BitTiming* bit_timing

, dbcppp_Node** nodes

, dbcppp_ValueTable** value_tables

, dbcppp_Message** messages

, dbcppp_EnvironmentVariable** environment_variables

, dbcppp_AttributeDefinition** attribute_definitions

, dbcppp_Attribute** attribute_defaults

, dbcppp_Attribute** attribute_values

, const char* comment)

{

std::string v(version);

std::vector<std::string> ns;

for (; *new_symbols; new_symbols++)

{

ns.push_back(*new_symbols);

*new_symbols = nullptr;

}

std::unique_ptr<IBitTiming> bt(reinterpret_cast<BitTimingImpl*>(bit_timing));

std::vector<std::unique_ptr<INode>> n;

for (; *nodes; nodes++)

{

NodeImpl* ni = reinterpret_cast<NodeImpl*>(*nodes);

n.push_back(std::unique_ptr<INode>(ni));

*nodes = nullptr;

}

std::vector<std::unique_ptr<IValueTable>> vt;

for (; *value_tables; value_tables++)

{

ValueTableImpl* vti = reinterpret_cast<ValueTableImpl*>(*value_tables);

vt.push_back(std::unique_ptr<IValueTable>(vti));

*value_tables = nullptr;

}

std::vector<std::unique_ptr<IMessage>> m;

for (; *messages; messages++)

{

MessageImpl* mi = reinterpret_cast<MessageImpl*>(*messages);

m.push_back(std::unique_ptr<IMessage>(mi));

*messages = nullptr;

}

std::vector<std::unique_ptr<IEnvironmentVariable>> ev;

for (; *environment_variables; environment_variables++)

{

EnvironmentVariableImpl* evi = reinterpret_cast<EnvironmentVariableImpl*>(*environment_variables);

ev.push_back(std::unique_ptr<IEnvironmentVariable>(evi));

*environment_variables = nullptr;

}

std::vector<std::unique_ptr<IAttributeDefinition>> adef;

for (; *attribute_definitions; attribute_definitions++)

{

AttributeDefinitionImpl* adefi = reinterpret_cast<AttributeDefinitionImpl*>(*attribute_definitions);

adef.push_back(std::unique_ptr<IAttributeDefinition>(adefi));

*attribute_definitions = nullptr;

}

std::vector<std::unique_ptr<IAttribute>> ad;

for (; *attribute_defaults; attribute_defaults++)

{

AttributeImpl* adi = reinterpret_cast<AttributeImpl*>(*attribute_defaults);

ad.push_back(std::unique_ptr<IAttribute>(adi));

*attribute_defaults = nullptr;

}

std::vector<std::unique_ptr<IAttribute>> av;

for (; *attribute_values; attribute_values++)

{

AttributeImpl* avi = reinterpret_cast<AttributeImpl*>(*attribute_values);

ad.push_back(std::unique_ptr<IAttribute>(avi));

*attribute_values = nullptr;

}

std::string c(comment);

auto net = INetwork::Create(

std::move(v), std::move(ns)

, std::move(bt), std::move(n)

, std::move(vt), std::move(m)

, std::move(ev), std::move(adef)

, std::move(ad), std::move(av)

, std::move(c));

INetwork* result = net.release();

return reinterpret_cast<const dbcppp_Network*>(result);

}

DBCPPP_API void dbcppp_NetworkFree(const dbcppp_Network* network)

{

std::unique_ptr<const NetworkImpl>(reinterpret_cast<const NetworkImpl*>(network));

}

DBCPPP_API const char* dbcppp_NetworkVersion(const dbcppp_Network* net)

{