HG_REPOSITORIES/LPP/SciQLOP_Repos/SciQLop Files · plugins/amda/src/AmdaParser.cpp

Completes fuzzing test structure by setting initial range for the time controller

Alexandre Leroux - - Load All Authors

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             AmdaParser.cpp
        
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      #include "AmdaParser.h"

      #include "AmdaDefs.h"

      #include <DataSource/DataSourceItem.h>

      #include <QFile>

      #include <QJsonArray>

      #include <QJsonDocument>

      #include <QJsonObject>

      Q_LOGGING_CATEGORY(LOG_AmdaParser, "AmdaParser")

      namespace {

      /// Returns the correct item type according to the key passed in parameter

      DataSourceItemType itemType(const QString &key) noexcept

      {

          if (key == AMDA_PRODUCT_KEY) {

              return DataSourceItemType::PRODUCT;

          }

          else if (key == AMDA_COMPONENT_KEY) {

              return DataSourceItemType::COMPONENT;

          }

          else {

              return DataSourceItemType::NODE;

          }

      }

      /**

       * Processes an entry of the JSON file to populate/create data source items

       * @param jsonKey the entry's key

       * @param jsonValue the entry's value

       * @param item the current item for which the entry processing will be applied

       * @param appendData flag indicating that the entry is part of an array. In the case of an array of

       * values, each value will be concatenated to the others (rather than replacing the others)

       */

      void parseEntry(const QString &jsonKey, const QJsonValue &jsonValue, DataSourceItem &item,

                      bool isArrayEntry = false)

      {

          if (jsonValue.isObject()) {

              // Case of an object:

              // - a new data source item is created and

              // - parsing is called recursively to process the new item

              // - the new item is then added as a child of the former item

              auto object = jsonValue.toObject();

              auto newItem = std::make_unique<DataSourceItem>(itemType(jsonKey));

              for (auto it = object.constBegin(), end = object.constEnd(); it != end; ++it) {

                  parseEntry(it.key(), it.value(), *newItem);

              }

              item.appendChild(std::move(newItem));

          }

          else if (jsonValue.isArray()) {

              // Case of an array: the item is populated with the arrays' content

              auto object = jsonValue.toArray();

              for (auto it = object.constBegin(), end = object.constEnd(); it != end; ++it) {

                  parseEntry(jsonKey, *it, item, true);

              }

          }

          else {

              // Case of a simple value: we add a data to the item. If the simple value is a part of an

              // array, it is concatenated to the values already existing for this key

              item.setData(jsonKey, jsonValue.toVariant(), isArrayEntry);

          }

      }

      } // namespace

      std::unique_ptr<DataSourceItem> AmdaParser::readJson(const QString &filePath) noexcept

      {

          QFile jsonFile{filePath};

          if (!jsonFile.open(QIODevice::ReadOnly | QIODevice::Text)) {

              qCCritical(LOG_AmdaParser())

                  << QObject::tr("Can't retrieve data source tree from file %1: %2")

                         .arg(filePath, jsonFile.errorString());

              return nullptr;

          }

          auto json = jsonFile.readAll();

          auto jsonDocument = QJsonDocument::fromJson(json);

          // Check preconditions for parsing

          if (!jsonDocument.isObject()) {

              qCCritical(LOG_AmdaParser())

                  << QObject::tr(

                         "Can't retrieve data source tree from file %1: the file is malformed (there is "

                         "not one and only one root object)")

                         .arg(filePath);

              return nullptr;

          }

          auto jsonDocumentObject = jsonDocument.object();

          if (!jsonDocumentObject.contains(AMDA_ROOT_KEY)) {

              qCCritical(LOG_AmdaParser())

                  << QObject::tr(

                         "Can't retrieve data source tree from file %1: the file is malformed (the key "

                         "for the root element was not found (%2))")

                         .arg(filePath, AMDA_ROOT_KEY);

              return nullptr;

          }

          auto rootValue = jsonDocumentObject.value(AMDA_ROOT_KEY);

          if (!rootValue.isObject()) {

              qCCritical(LOG_AmdaParser())

                  << QObject::tr(

                         "Can't retrieve data source tree from file %1: the file is malformed (the root "

                         "element is of the wrong type)")

                         .arg(filePath);

              return nullptr;

          }

          // Makes the parsing

          auto rootObject = rootValue.toObject();

          auto rootItem = std::make_unique<DataSourceItem>(DataSourceItemType::NODE);

          for (auto it = rootObject.constBegin(), end = rootObject.constEnd(); it != end; ++it) {

              parseEntry(it.key(), it.value(), *rootItem);

          }

          return rootItem;

      }

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				#include "AmdaParser.h"
				#include "AmdaDefs.h"

				#include <DataSource/DataSourceItem.h>

				#include <QFile>
				#include <QJsonArray>
				#include <QJsonDocument>
				#include <QJsonObject>

				Q_LOGGING_CATEGORY(LOG_AmdaParser, "AmdaParser")

				namespace {

				/// Returns the correct item type according to the key passed in parameter
				DataSourceItemType itemType(const QString &key) noexcept
				{
				if (key == AMDA_PRODUCT_KEY) {
				return DataSourceItemType::PRODUCT;
				}
				else if (key == AMDA_COMPONENT_KEY) {
				return DataSourceItemType::COMPONENT;
				}
				else {
				return DataSourceItemType::NODE;
				}
				}

				/**
				* Processes an entry of the JSON file to populate/create data source items
				* @param jsonKey the entry's key
				* @param jsonValue the entry's value
				* @param item the current item for which the entry processing will be applied
				* @param appendData flag indicating that the entry is part of an array. In the case of an array of
				* values, each value will be concatenated to the others (rather than replacing the others)
				*/
				void parseEntry(const QString &jsonKey, const QJsonValue &jsonValue, DataSourceItem &item,
				bool isArrayEntry = false)
				{
				if (jsonValue.isObject()) {
				// Case of an object:
				// - a new data source item is created and
				// - parsing is called recursively to process the new item
				// - the new item is then added as a child of the former item
				auto object = jsonValue.toObject();

				auto newItem = std::make_unique<DataSourceItem>(itemType(jsonKey));

				for (auto it = object.constBegin(), end = object.constEnd(); it != end; ++it) {
				parseEntry(it.key(), it.value(), *newItem);
				}

				item.appendChild(std::move(newItem));
				}
				else if (jsonValue.isArray()) {
				// Case of an array: the item is populated with the arrays' content
				auto object = jsonValue.toArray();

				for (auto it = object.constBegin(), end = object.constEnd(); it != end; ++it) {
				parseEntry(jsonKey, *it, item, true);
				}
				}
				else {
				// Case of a simple value: we add a data to the item. If the simple value is a part of an
				// array, it is concatenated to the values already existing for this key
				item.setData(jsonKey, jsonValue.toVariant(), isArrayEntry);
				}
				}

				} // namespace

				std::unique_ptr<DataSourceItem> AmdaParser::readJson(const QString &filePath) noexcept
				{
				QFile jsonFile{filePath};

				if (!jsonFile.open(QIODevice::ReadOnly \| QIODevice::Text)) {
				qCCritical(LOG_AmdaParser())
				<< QObject::tr("Can't retrieve data source tree from file %1: %2")
				.arg(filePath, jsonFile.errorString());
				return nullptr;
				}

				auto json = jsonFile.readAll();
				auto jsonDocument = QJsonDocument::fromJson(json);

				// Check preconditions for parsing
				if (!jsonDocument.isObject()) {
				qCCritical(LOG_AmdaParser())
				<< QObject::tr(
				"Can't retrieve data source tree from file %1: the file is malformed (there is "
				"not one and only one root object)")
				.arg(filePath);
				return nullptr;
				}

				auto jsonDocumentObject = jsonDocument.object();
				if (!jsonDocumentObject.contains(AMDA_ROOT_KEY)) {
				qCCritical(LOG_AmdaParser())
				<< QObject::tr(
				"Can't retrieve data source tree from file %1: the file is malformed (the key "
				"for the root element was not found (%2))")
				.arg(filePath, AMDA_ROOT_KEY);
				return nullptr;
				}

				auto rootValue = jsonDocumentObject.value(AMDA_ROOT_KEY);
				if (!rootValue.isObject()) {
				qCCritical(LOG_AmdaParser())
				<< QObject::tr(
				"Can't retrieve data source tree from file %1: the file is malformed (the root "
				"element is of the wrong type)")
				.arg(filePath);
				return nullptr;
				}

				// Makes the parsing
				auto rootObject = rootValue.toObject();
				auto rootItem = std::make_unique<DataSourceItem>(DataSourceItemType::NODE);

				for (auto it = rootObject.constBegin(), end = rootObject.constEnd(); it != end; ++it) {
				parseEntry(it.key(), it.value(), *rootItem);
				}

				return rootItem;
				}