void Cask::CdapOdbc::DataReader::fetchValue(const web::json::value& value, const ColumnBinding& binding) {
std::wstring strValue;
SQLDOUBLE dblValue = NAN;
switch (binding.getTargetType()) {
case SQL_CHAR:
strValue = to_wstring(value);
this->fetchVarchar(strValue.c_str(), binding);
break;
case SQL_WCHAR:
strValue = to_wstring(value);
this->fetchWVarchar(strValue.c_str(), binding);
break;
case SQL_DOUBLE:
if (value.is_string()) {
dblValue = std::wcstod(value.as_string().c_str(), nullptr);
} else if (value.is_integer()) {
dblValue = value.as_integer();
} else if (value.is_double()) {
dblValue = value.as_double();
} else if (value.is_number()) {
dblValue = value.as_number().to_double();
} else if (value.is_boolean()) {
dblValue = value.as_bool() ? 1.0 : 0.0;
}
this->fetchDouble(dblValue, binding);
break;
}
}
void Error_error::fromJson(web::json::value& val)
{
if(val.has_field(utility::conversions::to_string_t("message")))
{
setMessage(ModelBase::stringFromJson(val[utility::conversions::to_string_t("message")]));
}
if(val.has_field(utility::conversions::to_string_t("name")))
{
setName(ModelBase::stringFromJson(val[utility::conversions::to_string_t("name")]));
}
}
//creates GDD object from jason values
vector<vector<int>> GDD_generator(web::json::value jsonValue, network net)
{
vector<vector<int>> igdd(net.Number_of_Vertices, vector<int>(73));
for (int i = 0; i<jsonValue.size(); ++i)
{
igdd[i / 73][i % 73] = jsonValue.at(i).as_integer();
i++;
}
return igdd;
}
void Tag::fromJson(web::json::value& val)
{
if(val.has_field(U("id")))
{
setId(ModelBase::int64_tFromJson(val[U("id")]));
}
if(val.has_field(U("name")))
{
setName(ModelBase::stringFromJson(val[U("name")]));
}
}
etcd::Value::Value(web::json::value const & json_value)
: _key(json_value.has_field(JSON_KEY) ? json_value.at(JSON_KEY).as_string() : ""),
dir(json_value.has_field(JSON_DIR)),
value(json_value.has_field(JSON_VALUE) ? json_value.at(JSON_VALUE).as_string() : ""),
created(json_value.has_field(JSON_CREATED) ? json_value.at(JSON_CREATED).as_number().to_int64() : 0),
modified(json_value.has_field(JSON_MODIFIED) ? json_value.at(JSON_MODIFIED).as_number().to_int64() : 0)
{
}
void Object::fromJson(web::json::value& val)
{
if (val.is_object())
{
m_object = val;
}
}
void display_field_map_json(web::json::value jvalue)
{
if (!jvalue.is_null())
{
for (auto const & e : jvalue.as_object())
{
std::wcout
/*<< typeid(e.first).name()*/
// << e.first/*.as_string()*/
<< L" : "
/*<< typeid(e.second.as_string()).name()*/
// << e.second.as_string()
<< std::endl;
// std::wcout << e.as_string() << std::endl;
}
}
}
void ApiResponse::fromJson(web::json::value& val)
{
if(val.has_field(U("code")))
{
setCode(ModelBase::int32_tFromJson(val[U("code")]));
}
if(val.has_field(U("type")))
{
setType(ModelBase::stringFromJson(val[U("type")]));
}
if(val.has_field(U("message")))
{
setMessage(ModelBase::stringFromJson(val[U("message")]));
}
}
void Order::fromJson(web::json::value& val)
{
if(val.has_field(utility::conversions::to_string_t("id")))
{
setId(ModelBase::int64_tFromJson(val[utility::conversions::to_string_t("id")]));
}
if(val.has_field(utility::conversions::to_string_t("petId")))
{
setPetId(ModelBase::int64_tFromJson(val[utility::conversions::to_string_t("petId")]));
}
if(val.has_field(utility::conversions::to_string_t("quantity")))
{
setQuantity(ModelBase::int32_tFromJson(val[utility::conversions::to_string_t("quantity")]));
}
if(val.has_field(utility::conversions::to_string_t("shipDate")))
{
setShipDate(ModelBase::dateFromJson(val[utility::conversions::to_string_t("shipDate")]));
}
if(val.has_field(utility::conversions::to_string_t("status")))
{
setStatus(ModelBase::stringFromJson(val[utility::conversions::to_string_t("status")]));
}
if(val.has_field(utility::conversions::to_string_t("complete")))
{
setComplete(ModelBase::boolFromJson(val[utility::conversions::to_string_t("complete")]));
}
}
bool Indiv::setField(const FieldValue t, const web::json::value & value) {
switch (t) {
case FieldValue::hasimage:
this->m_hasimage =
((!value.is_null()) && value.is_boolean()) ?
value.as_bool() : false;
return true;
case FieldValue::imagedata: {
this->m_size = 0;
this->m_data.reset();
if (value.is_array()) {
const size_t n = value.size();
if (n > 0) {
this->m_data.reset(new byte[n]);
byte *pDest = this->m_data.get();
if (pDest != nullptr) {
for (size_t i = 0; i < n; ++i) {
byte b = (byte) 0;
auto v = value.get(i);
if ((!v.is_null()) && v.is_number()) {
b = (byte) v.as_integer();
}
pDest[i] = b;
} // i
this->m_size = n;
} // pDest
} // n
} // array
}
return true;
default:
break;
} // t
return (DatasetChild::setField(t, value));
} // setField
void Cask::CdapOdbc::ColumnMapper::map(const web::json::value& data) {
assert(data.is_array());
for (auto& item : this->columnBindings) {
auto desc = this->getDesc(item);
if (desc) {
if (item.getTargetType() == SQL_C_CHAR) {
auto value = data.at(desc->getPosition());
std::wstring strValue;
if (!value.is_null()) {
strValue = value.as_string();
}
copyString(value.is_null() ? nullptr : &strValue, item.getTargetValuePtr(), item.getBufferLength(), item.getStrLenOrInd());
}
} else {
// Column not found
if (item.getTargetType() == SQL_C_CHAR) {
copyString(nullptr, item.getTargetValuePtr(), item.getBufferLength(), item.getStrLenOrInd());
}
}
}
}
void gltfWriter::TechniqueParameters (FbxNode *pNode, web::json::value &techniqueParameters, web::json::value &attributes, web::json::value &accessors) {
for ( const auto &iter : attributes.as_object () ) {
utility::string_t name =iter.first ;
std::transform (name.begin (), name.end (), name.begin (), ::tolower) ;
//std::replace (name.begin (), name.end (), U('_'), U('x')) ;
name.erase (std::remove (name.begin (), name.end (), U('_')), name.end ()) ;
utility::string_t upperName (iter.first) ;
std::transform (upperName.begin (), upperName.end (), upperName.begin (), ::toupper) ;
web::json::value accessor =accessors [iter.second.as_string ()] ;
techniqueParameters [name] =web::json::value::object ({
{ U("semantic"), web::json::value::string (upperName) },
{ U("type"), web::json::value::number ((int)IOglTF::techniqueParameters (accessor [U("type")].as_string ().c_str (), accessor [U("componentType")].as_integer ())) }
}) ;
}
}
void JsonPrettify::formatValue (web::json::value &val, utility::ostream_t &stream) {
if ( val.is_array () )
formatArray (val.as_array (), stream) ;
else if ( val.is_object () )
formatObject (val.as_object (), stream) ;
else if ( val.is_string () )
format_string (val.as_string (), stream) ;
else if ( val.is_boolean () )
format_boolean (val.as_bool (), stream) ;
else if ( val.is_integer () )
format_integer (val.as_integer (), stream) ;
else if ( val.is_double () )
format_double (val.as_double (), stream) ;
else if ( val.is_null () )
format_null (stream) ;
}
web::json::value gltfWriter::WriteTechnique (FbxNode *pNode, FbxSurfaceMaterial *pMaterial, web::json::value &techniqueParameters) {
web::json::value commonProfile =web::json::value::object () ;
// The FBX SDK does not have such attribute. At best, it is an attribute of a Shader FX, CGFX or HLSL.
commonProfile [U("extras")] =web::json::value::object ({{ U("doubleSided"), web::json::value::boolean (false) }}) ;
commonProfile [U("lightingModel")] =web::json::value::string (LighthingModel (pMaterial)) ;
commonProfile [U("parameters")] =web::json::value::array () ;
if ( _uvSets.size () ) {
commonProfile [U("texcoordBindings")] =web::json::value::object () ;
for ( auto iter : _uvSets ) {
utility::string_t key (iter.first) ;
std::string::size_type i =key.find (U("Color")) ;
if ( i != std::string::npos )
key.erase (i, 5) ;
std::transform (key.begin (), key.end (), key.begin (), ::tolower) ;
commonProfile [U("texcoordBindings")] [key] =web::json::value::string (iter.second) ;
}
}
for ( const auto &iter : techniqueParameters.as_object () ) {
if ( ( utility::details::limitedCompareTo (iter.first, U("position")) != 0
&& utility::details::limitedCompareTo (iter.first, U("normal")) != 0
&& utility::details::limitedCompareTo (iter.first, U("texcoord")) != 0)
|| iter.first == U("normalMatrix")
)
commonProfile [U("parameters")] [commonProfile [U("parameters")].size ()] =web::json::value::string (iter.first) ;
web::json::value param =iter.second ;
if ( param [U("type")].as_integer () == IOglTF::SAMPLER_2D ) {
}
}
web::json::value details =web::json::value::object () ;
details [U("commonProfile")] =commonProfile ;
details [U("type")] =web::json::value::string (FBX_GLTF_COMMONPROFILE) ;
web::json::value attributes =web::json::value::object () ;
for ( const auto &iter : techniqueParameters.as_object () ) {
if ( utility::details::limitedCompareTo (iter.first, U("position")) == 0
|| (utility::details::limitedCompareTo (iter.first, U("normal")) == 0 && iter.first != U("normalMatrix"))
|| utility::details::limitedCompareTo (iter.first, U("texcoord")) == 0 )
attributes [utility::string_t (U("a_")) + iter.first] =web::json::value::string (iter.first) ;
}
web::json::value instanceProgram=web::json::value::object () ;
instanceProgram [U("attributes")] =attributes ;
instanceProgram [U("program")] =web::json::value::string (createUniqueId (utility::string_t (U("program")), 0)) ;
instanceProgram [U("uniforms")] =web::json::value::object () ;
for ( const auto &iter : techniqueParameters.as_object () ) {
if ( ( utility::details::limitedCompareTo (iter.first, U("position")) != 0
&& utility::details::limitedCompareTo (iter.first, U("normal")) != 0
&& utility::details::limitedCompareTo (iter.first, U("texcoord")) != 0)
|| iter.first == U("normalMatrix") )
instanceProgram [U("uniforms")] [utility::string_t (U("u_")) + iter.first] =web::json::value::string (iter.first) ;
}
web::json::value techStatesEnable =web::json::value::array () ;
if ( pNode->mCullingType != FbxNode::ECullingType::eCullingOff )
techStatesEnable [techStatesEnable.size ()] =web::json::value::number ((int)IOglTF::CULL_FACE) ;
// TODO: should it always be this way?
techStatesEnable [techStatesEnable.size ()] =web::json::value::number ((int)IOglTF::DEPTH_TEST) ;
web::json::value techStates =web::json::value::object () ;
techStates [U("enable")] =techStatesEnable ;
// TODO: needs to be implemented
//techStates [U("functions")] =
web::json::value techniquePass =web::json::value::object () ;
techniquePass [U("details")] =details ;
techniquePass [U("instanceProgram")] =instanceProgram ;
techniquePass [U("states")] =techStates ;
web::json::value technique =web::json::value::object () ;
technique [U("parameters")] =techniqueParameters ;
technique [U("pass")] =web::json::value::string (U("defaultPass")) ;
technique [U("passes")] =web::json::value::object ({{ U("defaultPass"), techniquePass }}) ;
return (technique) ;
}