static void _list_to_dict(
CefRefPtr<CefListValue> & src,
CefRefPtr<CefDictionaryValue> & dest,
CefDictionaryValue::KeyList & keys
)
{
if (!src.get())
return;
if (!dest.get())
dest = CefDictionaryValue::Create();
bool has_keys = keys.size() == dest->GetSize();
for (int i = 0, nsize = static_cast<int>(src->GetSize()); i < nsize; ++i)
{
std::string key = has_keys ? keys[i] : std::to_string(i);
switch (src->GetType(i))
{
case VTYPE_NULL:
dest->SetNull(key);
break;
case VTYPE_BOOL:
dest->SetBool(key, src->GetBool(i));
break;
case VTYPE_INT:
dest->SetInt(key, src->GetInt(i));
break;
case VTYPE_DOUBLE:
dest->SetDouble(key, src->GetDouble(i));
break;
case VTYPE_STRING:
dest->SetString(key, src->GetString(i));
break;
case VTYPE_BINARY:
dest->SetBinary(key, src->GetBinary(i));
break;
case VTYPE_DICTIONARY:
dest->SetDictionary(key, src->GetDictionary(i));
break;
case VTYPE_LIST:
dest->SetList(key, src->GetList(i));
break;
default:
assert(0);
break;
}
}
}
// ¶ªÆúkey
static void _dict_to_list(CefRefPtr<CefDictionaryValue> & src, CefRefPtr<CefListValue> & dest)
{
if (!src.get())
return;
if (!dest.get())
dest = CefListValue::Create();
CefDictionaryValue::KeyList keys;
src->GetKeys(keys);
int idx = 0;
for (CefString & i : keys)
{
switch (src->GetType(i))
{
case VTYPE_NULL:
dest->SetNull(idx);
break;
case VTYPE_BOOL:
dest->SetBool(idx, src->GetBool(i));
break;
case VTYPE_INT:
dest->SetInt(idx, src->GetInt(i));
break;
case VTYPE_DOUBLE:
dest->SetDouble(idx, src->GetDouble(i));
break;
case VTYPE_STRING:
dest->SetString(idx, src->GetString(i));
break;
case VTYPE_BINARY:
dest->SetBinary(idx, src->GetBinary(i));
break;
case VTYPE_DICTIONARY:
dest->SetDictionary(idx, src->GetDictionary(i));
break;
case VTYPE_LIST:
dest->SetList(idx, src->GetList(i));
break;
default:
assert(0);
break;
}
++idx;
}
}
bool ClientHandler::OnProcessMessageReceived(CefRefPtr<CefBrowser> browser, CefProcessId source_process, CefRefPtr<CefProcessMessage> message)
{
if (message->GetName().ToString() == "show_keyboard"){
PostCallback(callback1(WhenKeyboard, true));
}else if (message->GetName().ToString() == "hide_keyboard"){
PostCallback(callback1(WhenKeyboard, false));
}else{
CefRefPtr<CefListValue> args = message->GetArgumentList();
Upp::Vector<Upp::Value> par;
for (unsigned i = 0; i < args->GetSize(); i++){
CefValueType type = args->GetType(i);
switch(type){
case VTYPE_BOOL:
par.Add(args->GetBool(i));
break;
case VTYPE_DOUBLE:
par.Add(args->GetDouble(i));
break;
case VTYPE_INT:
par.Add(args->GetInt(i));
break;
case VTYPE_STRING:
par.Add(args->GetString(i).ToString().c_str());
break;
default:
par.Add("OnProcessMessageReceived: unsupported parameter type");
break;
}
}
PostCallback(callback2(WhenMessage, message->GetName().ToString(), par));
}
return true;
}
void IPC_Container::GetObjectsFromIPC(
CefRefPtr<CefProcessMessage> msg,
std::vector<std::function<void(std::vector<int>, std::vector<double>, std::vector<std::string>, int64 frameID, int nodeID)> > singleObjectCreationFunctions
)
{
CefRefPtr<CefListValue> args = msg->GetArgumentList();
int index = 0;
int64 frameID = (int64) args->GetDouble(index++);
// Amount of each different object type listed
int types = args->GetInt(index++);
//std::cout << "types: " << types << std::endl;
std::vector<int> amount_type;
for (int i = 0; i < types; i++)
{
amount_type.push_back(args->GetInt(index++));
//std::cout << "type[" << i << "]: " << amount_type[i] << std::endl;
}
for (int i = 0; i < types; i++)
{
// Fill attributes to vectors
std::vector<int> integers = {};
std::vector<double> doubles = {};
std::vector<std::string> strings = {};
for (int j = 0; j < amount_type[i]; j++)
{
// Iteration for each attribute to be read
for (int k = 0; k < (int)_scheme.size(); k++)
{
//DLOG(INFO) << "Object#" << j<< "/"<<amount_type[i]<<": Reading attribute #" << k << "("<< _scheme[k].GetName() << ") starting at IPC position #" << index;
int schemeArraySize = _scheme[k].GetArraySize();
if (schemeArraySize == 0)
{
switch (_scheme[k].GetDatatype())
{
case Datatype::INTEGER:
{
integers.push_back(args->GetInt(index++));
break;
}
case Datatype::DOUBLE:
{
doubles.push_back(args->GetDouble(index++));
break;
}
case Datatype::STRING:
{
strings.push_back(args->GetString(index++));
break;
}
}
}
else if (schemeArraySize > 0)
{
switch (_scheme[k].GetDatatype())
{
// TODO: Grouping of array elements with vector in vector?
case Datatype::INTEGER:
{
for (int l = 0; l < _scheme[k].GetArraySize(); l++)
{
integers.push_back(args->GetInt(index++));
}
break;
}
case Datatype::DOUBLE:
{
for (int l = 0; l < _scheme[k].GetArraySize(); l++)
{
doubles.push_back(args->GetDouble(index++));
}
break;
}
case Datatype::STRING:
{
for (int l = 0; l < _scheme[k].GetArraySize(); l++)
{
strings.push_back(args->GetString(index++));
}
break;
}
}
}
else // ERROR CASE
{
// std::cout << "WARNING: Scheme array size < 0!" << std::endl;
}
}
// Call function for specific object type with read data
singleObjectCreationFunctions[i](integers, doubles, strings, frameID, j);
// Clear all attribute values
integers.clear();
doubles.clear();
strings.clear();
}
}
}
CefRefPtr<CefV8Value> CefDictionaryValueToV8Value(
CefRefPtr<CefDictionaryValue> dictValue,
int nestingLevel) {
if (!dictValue->IsValid()) {
DebugLog("CefDictionaryValueToV8Value() FAILED: " \
"CefDictionaryValue is invalid");
return CefV8Value::CreateNull();
}
if (nestingLevel > 8) {
DebugLog("CefDictionaryValueToV8Value(): WARNING: " \
"max nesting level (8) exceeded");
return CefV8Value::CreateNull();
}
std::vector<CefString> keys;
if (!dictValue->GetKeys(keys)) {
DebugLog("CefDictionaryValueToV8Value() FAILED: " \
"dictValue->GetKeys() failed");
return CefV8Value::CreateNull();
}
CefRefPtr<CefV8Value> ret = CefV8Value::CreateObject(NULL);
CefRefPtr<CefBinaryValue> binaryValue;
PythonCallback pyCallback;
CefRefPtr<CefV8Handler> v8FunctionHandler;
for (std::vector<CefString>::iterator it = keys.begin(); \
it != keys.end(); ++it) {
CefString key = *it;
cef_value_type_t valueType = dictValue->GetType(key);
bool success;
std::string callbackName = "python_callback_";
if (valueType == VTYPE_NULL) {
success = ret->SetValue(key,
CefV8Value::CreateNull(),
V8_PROPERTY_ATTRIBUTE_NONE);
} else if (valueType == VTYPE_BOOL) {
success = ret->SetValue(key,
CefV8Value::CreateBool(dictValue->GetBool(key)),
V8_PROPERTY_ATTRIBUTE_NONE);
} else if (valueType == VTYPE_INT) {
success = ret->SetValue(key,
CefV8Value::CreateInt(dictValue->GetInt(key)),
V8_PROPERTY_ATTRIBUTE_NONE);
} else if (valueType == VTYPE_DOUBLE) {
success = ret->SetValue(key,
CefV8Value::CreateDouble(dictValue->GetDouble(key)),
V8_PROPERTY_ATTRIBUTE_NONE);
} else if (valueType == VTYPE_STRING) {
success = ret->SetValue(key,
CefV8Value::CreateString(dictValue->GetString(key)),
V8_PROPERTY_ATTRIBUTE_NONE);
} else if (valueType == VTYPE_BINARY) {
binaryValue = dictValue->GetBinary(key);
if (binaryValue->GetSize() == sizeof(pyCallback)) {
binaryValue->GetData(&pyCallback, sizeof(pyCallback), 0);
v8FunctionHandler = new V8FunctionHandler(
NULL, pyCallback.callbackId);
// You must provide a function name to
// CefV8Value::CreateFunction(), otherwise it fails.
callbackName.append(AnyToString(pyCallback.callbackId));
success = ret->SetValue(key,
CefV8Value::CreateFunction(
callbackName, v8FunctionHandler),
V8_PROPERTY_ATTRIBUTE_NONE);
} else {
DebugLog("CefListValueToV8Value(): WARNING: " \
"unknown binary value, setting value to null");
success = ret->SetValue(key,
CefV8Value::CreateNull(),
V8_PROPERTY_ATTRIBUTE_NONE);
}
} else if (valueType == VTYPE_DICTIONARY) {
success = ret->SetValue(key,
CefDictionaryValueToV8Value(
dictValue->GetDictionary(key),
nestingLevel + 1),
V8_PROPERTY_ATTRIBUTE_NONE);
} else if (valueType == VTYPE_LIST) {
success = ret->SetValue(key,
CefListValueToV8Value(
dictValue->GetList(key),
nestingLevel + 1),
V8_PROPERTY_ATTRIBUTE_NONE);
} else {
DebugLog("CefDictionaryValueToV8Value(): WARNING: " \
"unknown type, setting value to null");
success = ret->SetValue(key,
CefV8Value::CreateNull(),
V8_PROPERTY_ATTRIBUTE_NONE);
}
if (!success) {
DebugLog("CefDictionaryValueToV8Value(): WARNING: " \
"ret->SetValue() failed");
}
}
return ret;
}
CefRefPtr<CefV8Value> CefListValueToV8Value(
CefRefPtr<CefListValue> listValue,
int nestingLevel) {
if (!listValue->IsValid()) {
DebugLog("CefListValueToV8Value() FAILED: " \
"CefDictionaryValue is invalid");
return CefV8Value::CreateNull();
}
if (nestingLevel > 8) {
DebugLog("CefListValueToV8Value(): WARNING: " \
"max nesting level (8) exceeded");
return CefV8Value::CreateNull();
}
int listSize = (int)listValue->GetSize();
CefRefPtr<CefV8Value> ret = CefV8Value::CreateArray(listSize);
CefRefPtr<CefBinaryValue> binaryValue;
PythonCallback pyCallback;
CefRefPtr<CefV8Handler> v8FunctionHandler;
for (int key = 0; key < listSize; ++key) {
cef_value_type_t valueType = listValue->GetType(key);
bool success;
std::string callbackName = "python_callback_";
if (valueType == VTYPE_NULL) {
success = ret->SetValue(key,
CefV8Value::CreateNull());
} else if (valueType == VTYPE_BOOL) {
success = ret->SetValue(key,
CefV8Value::CreateBool(listValue->GetBool(key)));
} else if (valueType == VTYPE_INT) {
success = ret->SetValue(key,
CefV8Value::CreateInt(listValue->GetInt(key)));
} else if (valueType == VTYPE_DOUBLE) {
success = ret->SetValue(key,
CefV8Value::CreateDouble(listValue->GetDouble(key)));
} else if (valueType == VTYPE_STRING) {
success = ret->SetValue(key,
CefV8Value::CreateString(listValue->GetString(key)));
} else if (valueType == VTYPE_BINARY) {
binaryValue = listValue->GetBinary(key);
if (binaryValue->GetSize() == sizeof(pyCallback)) {
binaryValue->GetData(&pyCallback, sizeof(pyCallback), 0);
v8FunctionHandler = new V8FunctionHandler(
NULL, pyCallback.callbackId);
// You must provide a function name to
// CefV8Value::CreateFunction(), otherwise it fails.
callbackName.append(AnyToString(pyCallback.callbackId));
success = ret->SetValue(key,
CefV8Value::CreateFunction(
callbackName, v8FunctionHandler));
} else {
DebugLog("CefListValueToV8Value(): WARNING: " \
"unknown binary value, setting value to null");
success = ret->SetValue(key, CefV8Value::CreateNull());
}
} else if (valueType == VTYPE_DICTIONARY) {
success = ret->SetValue(key,
CefDictionaryValueToV8Value(
listValue->GetDictionary(key),
nestingLevel + 1));
} else if (valueType == VTYPE_LIST) {
success = ret->SetValue(key,
CefListValueToV8Value(
listValue->GetList(key),
nestingLevel + 1));
} else {
DebugLog("CefListValueToV8Value(): WARNING: " \
"unknown type, setting value to null");
success = ret->SetValue(key,
CefV8Value::CreateNull());
}
if (!success) {
DebugLog("CefListValueToV8Value(): WARNING: " \
"ret->SetValue() failed");
}
}
return ret;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
boost::python::dict CefDictionaryValueToPy( CefRefPtr<CefDictionaryValue> d )
{
boost::python::dict result;
CefDictionaryValue::KeyList keys;
d->GetKeys( keys );
for( size_t i = 0; i < keys.size(); i++ )
{
std::string k = keys[i].ToString();
switch( d->GetType( keys[i] ) )
{
case VTYPE_INT:
{
result[k.c_str()] = d->GetInt( keys[i] );
break;
}
case VTYPE_DOUBLE:
{
result[k.c_str()] = d->GetDouble( keys[i] );
break;
}
case VTYPE_BOOL:
{
result[k.c_str()] = d->GetBool( keys[i] );
break;
}
case VTYPE_STRING:
{
result[k.c_str()] = d->GetString( keys[i] ).ToString().c_str();
break;
}
case VTYPE_BINARY:
{
WarsCefData_t warsCefData;
CefRefPtr<CefBinaryValue> binaryData = d->GetBinary( keys[i] );
binaryData->GetData( &warsCefData, sizeof( warsCefData ), 0 );
if( warsCefData.type == WARSCEF_TYPE_JSOBJECT )
{
WarsCefJSObject_t warsCefJSObject;
binaryData->GetData( &warsCefJSObject, sizeof( warsCefJSObject ), 0 );
CefRefPtr<JSObject> jsResultObject = new JSObject( "", warsCefJSObject.uuid );
result[k.c_str()] = boost::python::object( PyJSObject( jsResultObject ) );
}
else
{
result[k.c_str()] = boost::python::object();
}
break;
}
case VTYPE_DICTIONARY:
{
result[k.c_str()] = CefDictionaryValueToPy( d->GetDictionary( keys[i] ) );
break;
}
case VTYPE_LIST:
{
result[k.c_str()] = CefValueListToPy( d->GetList( keys[i] ) );
break;
}
default:
{
result[k.c_str()] = d->GetString( keys[i] ).ToString().c_str();
break;
}
}
}
return result;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
boost::python::list CefValueListToPy( CefRefPtr<CefListValue> l )
{
boost::python::list result;
for( size_t i = 0; i < l->GetSize(); i++ )
{
switch( l->GetType( i ) )
{
case VTYPE_INT:
{
result.append( l->GetInt( i ) );
break;
}
case VTYPE_DOUBLE:
{
result.append( l->GetDouble( i ) );
break;
}
case VTYPE_BOOL:
{
result.append( l->GetBool( i ) );
break;
}
case VTYPE_STRING:
{
result.append( l->GetString( i ).ToString().c_str() );
break;
}
case VTYPE_BINARY:
{
WarsCefData_t warsCefData;
l->GetBinary( i )->GetData( &warsCefData, sizeof( warsCefData ), 0 );
if( warsCefData.type == WARSCEF_TYPE_JSOBJECT )
{
WarsCefJSObject_t warsCefJSObject;
l->GetBinary( i )->GetData( &warsCefJSObject, sizeof( warsCefJSObject ), 0 );
CefRefPtr<JSObject> jsResultObject = new JSObject( "", warsCefJSObject.uuid );
result.append( boost::python::object( PyJSObject( jsResultObject ) ) );
}
else
{
result.append( boost::python::object() );
}
break;
}
case VTYPE_DICTIONARY:
{
result.append( CefDictionaryValueToPy( l->GetDictionary( i ) ) );
break;
}
case VTYPE_LIST:
{
result.append( CefValueListToPy( l->GetList( i ) ) );
break;
}
default:
{
result.append( l->GetString( i ).ToString().c_str() );
break;
}
}
}
return result;
}
