//----------------------------------------------------------------------------------- void HlmsJsonCompute::loadBasedOnTextureOrUav( const rapidjson::Value &objValue, const String &jobName, HlmsComputeJob *job, int _threadGroupsBasedOn ) { HlmsComputeJob::ThreadGroupsBasedOn threadGroupsBasedOn = static_cast<HlmsComputeJob::ThreadGroupsBasedOn>( _threadGroupsBasedOn ); if( objValue.IsUint() ) { job->setNumThreadGroupsBasedOn( threadGroupsBasedOn, static_cast<uint8>( objValue.GetUint() ), 1u, 1u, 1u ); } else if( objValue.IsObject() ) { uint8 slot = 0; uint8 divisors[3] = { 1u, 1u, 1u }; bool hasError = false; const rapidjson::Value &subobj = objValue; rapidjson::Value::ConstMemberIterator itor = subobj.FindMember( "slot" ); if( itor != subobj.MemberEnd() && itor->value.IsUint() ) slot = static_cast<uint8>( itor->value.GetUint() ); else hasError = true; itor = subobj.FindMember( "divisor" ); if( itor != subobj.MemberEnd() && itor->value.IsArray() ) { const rapidjson::Value &divArray = itor->value; const rapidjson::SizeType arraySize = std::min( 3u, divArray.Size() ); for( rapidjson::SizeType i=0; i<arraySize; ++i ) { if( divArray[i].IsUint() ) { divisors[i] = divArray[i].GetUint(); } else { hasError = true; LogManager::getSingleton().logMessage( "Array with 3 integers expected in " + jobName + ". " "Syntax is thread_groups_based_on_texture : { \"slot\" " ": 0, \"divisor\" : [1, 1, 1] } or the short form: " "thread_groups_based_on_texture : 0 (with no divisors)" ); } } } if( !hasError ) { job->setNumThreadGroupsBasedOn( threadGroupsBasedOn, slot, divisors[0], divisors[1], divisors[2] ); } } }
// Convert rapidjson value to JSON value. static void ToJSONValue(JSONValue& jsonValue, const rapidjson::Value& rapidjsonValue) { switch (rapidjsonValue.GetType()) { case kNullType: // Reset to null type jsonValue.SetType(JSON_NULL); break; case kFalseType: jsonValue = false; break; case kTrueType: jsonValue = true; break; case kNumberType: if (rapidjsonValue.IsInt()) jsonValue = rapidjsonValue.GetInt(); else if (rapidjsonValue.IsUint()) jsonValue = rapidjsonValue.GetUint(); else jsonValue = rapidjsonValue.GetDouble(); break; case kStringType: jsonValue = rapidjsonValue.GetString(); break; case kArrayType: { jsonValue.Resize(rapidjsonValue.Size()); for (unsigned i = 0; i < rapidjsonValue.Size(); ++i) { ToJSONValue(jsonValue[i], rapidjsonValue[i]); } } break; case kObjectType: { jsonValue.SetType(JSON_OBJECT); for (rapidjson::Value::ConstMemberIterator i = rapidjsonValue.MemberBegin(); i != rapidjsonValue.MemberEnd(); ++i) { JSONValue& value = jsonValue[String(i->name.GetString())]; ToJSONValue(value, i->value); } } break; default: break; } }
bool getJsonNumber(const rapidjson::Value &v, T &dst) { if (v.IsDouble()) dst = T(v.GetDouble()); else if (v.IsInt()) dst = T(v.GetInt()); else if (v.IsUint()) dst = T(v.GetUint()); else if (v.IsInt64()) dst = T(v.GetInt64()); else if (v.IsUint64()) dst = T(v.GetUint64()); else return false; return true; }
int JsonValidator::getType(rapidjson::Value& jsonValue) { if (jsonValue.IsNull()) { return kJsonTypeNull; } else if (jsonValue.IsBool()) { return kJsonTypeBoolean; } else if (jsonValue.IsObject()) { return kJsonTypeObject; } else if (jsonValue.IsArray()) { return kJsonTypeArray; } else if (jsonValue.IsString()) { return kJsonTypeString; } else if (jsonValue.IsInt() || jsonValue.IsInt64() || jsonValue.IsUint() || jsonValue.IsUint64()) { return kJsonTypeInteger; } else if (jsonValue.IsDouble()) { return kJsonTypeDouble; } else { return kJsonTypeUnknown; } }
std::uint32_t get_value(const rapidjson::Value& root, const char* key) { if (key != nullptr) { if (root.HasMember(key) && root[key].IsUint()) { return root[key].GetUint(); } else throw std::system_error(std::error_code(), "Parse error."); } else { if (root.IsUint()) { return root.GetUint(); } else throw std::system_error(std::error_code(), "Parse error."); } }
void ConvertToMsgPack(const rapidjson::Value& json, msgpack::object& object, msgpack::zone& zone) { switch (json.GetType()) { case rapidjson::kFalseType: object = false; break; case rapidjson::kTrueType: object = true; break; case rapidjson::kNumberType: { if (json.IsInt()) { object = json.GetInt(); } else if (json.IsUint()) { object = json.GetUint(); } else if (json.IsInt64()) { object = json.GetInt64(); } else if (json.IsUint64()) { object = json.GetUint64(); } else if (json.IsDouble()) { object = json.GetDouble(); } break; } case rapidjson::kStringType: // we allocate with 'zone', otherwise the std::string's raw pointer gets used, which won't work as it gets destructed later on object = msgpack::object(std::string(json.GetString(), json.GetStringLength()), zone); break; case rapidjson::kObjectType: { std::map<std::string, msgpack::object> list; for (auto it = json.MemberBegin(); it != json.MemberEnd(); it++) { msgpack::object newObject; ConvertToMsgPack(it->value, newObject, zone); list.insert({ it->name.GetString(), newObject }); } object = msgpack::object(list, zone); break; } case rapidjson::kArrayType: { std::vector<msgpack::object> list; for (auto it = json.Begin(); it != json.End(); it++) { msgpack::object newObject; ConvertToMsgPack(*it, newObject, zone); list.push_back(newObject); } object = msgpack::object(list, zone); break; } default: object = msgpack::type::nil(); break; } }