Mercurial > hg > svapp
view framework/SVFileReader.h @ 711:aee03ad6d3f6
Fix compile error with new Qt
author | Chris Cannam |
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date | Fri, 04 Oct 2019 13:52:27 +0100 |
parents | 610fa108fbcc |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This file copyright 2006 Chris Cannam and QMUL. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #ifndef SV_FILE_READER_H #define SV_FILE_READER_H #include "layer/LayerFactory.h" #include "transform/Transform.h" #include <QXmlDefaultHandler> #include <map> class Pane; class Model; class Path; class Document; class PlayParameters; class SVFileReaderPaneCallback { public: virtual ~SVFileReaderPaneCallback(); virtual Pane *addPane() = 0; virtual void setWindowSize(int width, int height) = 0; virtual void addSelection(sv_frame_t start, sv_frame_t end) = 0; }; /** SVFileReader loads Sonic Visualiser XML files. (The SV file format is bzipped XML.) Some notes about the SV XML format follow. We're very lazy with our XML: there's no schema or DTD, and we depend heavily on elements being in a particular order. \verbatim <sv> <data> <!-- The data section contains definitions of both models and visual layers. Layers are considered data in the document; the structure of views that displays the layers is not. --> <!-- id numbers are unique within the data type (i.e. no two models can have the same id, but a model can have the same id as a layer, etc). SV generates its id numbers just for the purpose of cross-referencing within the current file; they don't necessarily have any meaning once the file has been loaded. --> <model id="0" name="..." type="..." ... /> <model id="1" name="..." type="..." ... /> <!-- Models that have data associated with them store it in a neighbouring dataset element. The dataset must follow the model and precede any derivation or layer elements that refer to the model. --> <model id="2" name="..." type="..." dataset="0" ... /> <dataset id="0" type="..."> <point frame="..." value="..." ... /> </dataset> <!-- Where one model is derived from another via a transform, it has an associated derivation element. This must follow both the source and target model elements. The source and model attributes give the source model id and target model id respectively. A model can have both dataset and derivation elements; if it does, dataset must appear first. If the model's data are not stored, but instead the model is to be regenerated completely from the transform when the session is reloaded, then the model should have _only_ a derivation element, and no model element should appear for it at all. --> <derivation type="transform" source="0" model="2" channel="-1"> <transform id="vamp:soname:pluginid:output" ... /> </derivation> <!-- Note that the derivation element just described replaces this earlier formulation, which had more attributes in the derivation element and a plugin element describing plugin parameters and properties. What we actually read and write these days is a horrid composite of the two formats, for backward compatibility reasons. --> <derivation source="0" model="2" transform="vamp:soname:pluginid:output" ...> <plugin id="pluginid" ... /> </derivation> <!-- The playparameters element lists playback settings for a model. --> <playparameters mute="false" pan="0" gain="1" model="1" ... /> <!-- Layer elements. The models must have already been defined. The same model may appear in more than one layer (of more than one type). --> <layer id="1" type="..." name="..." model="0" ... /> <layer id="2" type="..." name="..." model="1" ... /> </data> <display> <!-- The display element contains visual structure for the layers. It's simpler than the data section. --> <!-- Overall preferred window size for this session. (Now deprecated, it wasn't a good idea to try to persist this) --> <window width="..." height="..."/> <!-- List of view elements to stack up. Each one contains a list of layers in stacking order, back to front. --> <view type="pane" ...> <layer id="1"/> <layer id="2"/> </view> <!-- The layer elements just refer to layers defined in the data section, so they don't have to have any attributes other than the id. For sort-of-historical reasons SV actually does repeat the other attributes here, but it doesn't need to. --> <view type="pane" ...> <layer id="2"/> <view> </display> <!-- List of selected regions by audio frame extents. --> <selections> <selection start="..." end="..."/> </selections> </sv> \endverbatim */ class SVFileReader : public QObject, QXmlDefaultHandler { Q_OBJECT public: SVFileReader(Document *document, SVFileReaderPaneCallback &callback, QString location = ""); // for audio file locate mechanism virtual ~SVFileReader(); void parse(const QString &xmlData); void parse(QXmlInputSource &source); bool isOK(); QString getErrorString() const { return m_errorString; } // For loading a single layer onto an existing pane void setCurrentPane(Pane *pane) { m_currentPane = pane; } bool startElement(const QString &namespaceURI, const QString &localName, const QString &qName, const QXmlAttributes& atts) override; bool characters(const QString &) override; bool endElement(const QString &namespaceURI, const QString &localName, const QString &qName) override; bool error(const QXmlParseException &exception) override; bool fatalError(const QXmlParseException &exception) override; enum FileType { SVSessionFile, SVLayerFile, UnknownFileType }; static FileType identifyXmlFile(QString path); signals: void modelRegenerationFailed(QString layerName, QString transformName, QString message); void modelRegenerationWarning(QString layerName, QString transformName, QString message); protected: bool readWindow(const QXmlAttributes &); bool readModel(const QXmlAttributes &); bool readView(const QXmlAttributes &); bool readLayer(const QXmlAttributes &); bool readDatasetStart(const QXmlAttributes &); bool addBinToDataset(const QXmlAttributes &); bool addPointToDataset(const QXmlAttributes &); bool addRowToDataset(const QXmlAttributes &); bool readRowData(const QString &); bool readDerivation(const QXmlAttributes &); bool readPlayParameters(const QXmlAttributes &); bool readPlugin(const QXmlAttributes &); bool readPluginForTransform(const QXmlAttributes &); bool readPluginForPlayback(const QXmlAttributes &); bool readTransform(const QXmlAttributes &); bool readParameter(const QXmlAttributes &); bool readSelection(const QXmlAttributes &); bool readMeasurement(const QXmlAttributes &); void makeAggregateModels(); void addUnaddedModels(); // We use the term "pending" of things that have been referred to // but not yet constructed because their definitions are // incomplete. They are just referred to with an ExportId. Models // that have been constructed are always added straight away to // ById and are referred to with a ModelId (everywhere where // previously we would have used a Model *). m_models maps from // ExportId (as read from the file) to complete Models, or to a // ModelId of None for any model that could not be constructed for // some reason. typedef XmlExportable::ExportId ExportId; bool haveModel(ExportId id) { return (m_models.find(id) != m_models.end()) && !m_models[id].isNone(); } struct PendingAggregateRec { QString name; sv_samplerate_t sampleRate; std::vector<ExportId> components; }; Document *m_document; SVFileReaderPaneCallback &m_paneCallback; QString m_location; Pane *m_currentPane; std::map<ExportId, Layer *> m_layers; std::map<ExportId, ModelId> m_models; std::map<ExportId, Path *> m_paths; std::set<ModelId> m_addedModels; // i.e. added to Document, not just ById std::map<ExportId, PendingAggregateRec> m_pendingAggregates; // A model element often contains a dataset id, and the dataset // then follows it. When the model is read, an entry in this map // is added, mapping from the dataset's export id (the actual // dataset has not been read yet) back to the export id of the // object that needs it. We map to export id rather than model id, // because the object might be a path rather than a model. std::map<ExportId, ExportId> m_awaitingDatasets; // And then this is the model or path that a dataset element is // currently being read into, i.e. the value looked up from // m_awaitingDatasets at the point where the dataset is found. ExportId m_currentDataset; Layer *m_currentLayer; ModelId m_currentDerivedModel; ExportId m_pendingDerivedModel; std::shared_ptr<PlayParameters> m_currentPlayParameters; Transform m_currentTransform; ModelId m_currentTransformSource; int m_currentTransformChannel; bool m_currentTransformIsNewStyle; QString m_datasetSeparator; bool m_inRow; bool m_inLayer; bool m_inView; bool m_inData; bool m_inSelections; int m_rowNumber; QString m_errorString; bool m_ok; }; #endif