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view transform/ModelTransformer.h @ 1675:6804af71b7be osc-script
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author | Chris Cannam |
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date | Thu, 28 Mar 2019 10:39:02 +0000 |
parents | 1b888a85983b |
children | 565575463752 |
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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. 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_MODEL_TRANSFORMER_H #define SV_MODEL_TRANSFORMER_H #include "base/Thread.h" #include "data/model/Model.h" #include "Transform.h" /** * A ModelTransformer turns one data model into another. * * Typically in this application, a ModelTransformer might have a * DenseTimeValueModel as its input (e.g. an audio waveform) and a * SparseOneDimensionalModel (e.g. detected beats) as its output. * * The ModelTransformer typically runs in the background, as a * separate thread populating the output model. The model is * available to the user of the ModelTransformer immediately, but may * be initially empty until the background thread has populated it. */ class ModelTransformer : public Thread { public: virtual ~ModelTransformer(); typedef std::vector<Model *> Models; class Input { public: Input(Model *m) : m_model(m), m_channel(-1) { } Input(Model *m, int c) : m_model(m), m_channel(c) { } Model *getModel() const { return m_model; } void setModel(Model *m) { m_model = m; } int getChannel() const { return m_channel; } void setChannel(int c) { m_channel = c; } protected: Model *m_model; int m_channel; }; /** * Hint to the processing thread that it should give up, for * example because the process is going to exit or we want to get * rid of the input model. Caller should still wait() and/or * delete the transform before assuming its input and output * models are no longer required. */ void abandon() { m_abandoned = true; } /** * Return true if the processing thread is being or has been * abandoned, i.e. if abandon() has been called. */ bool isAbandoned() const { return m_abandoned; } /** * Return the input model for the transform. */ Model *getInputModel() { return m_input.getModel(); } /** * Return the input channel spec for the transform. */ int getInputChannel() { return m_input.getChannel(); } /** * Return the set of output models created by the transform or * transforms. Returns an empty list if any transform could not * be initialised; an error message may be available via * getMessage() in this situation. */ Models getOutputModels() { awaitOutputModels(); return m_outputs; } /** * Return the set of output models, also detaching them from the * transformer so that they will not be deleted when the * transformer is. The caller takes ownership of the models. */ Models detachOutputModels() { awaitOutputModels(); m_detached = true; return m_outputs; } /** * Return any additional models that were created during * processing. This might happen if, for example, a transform was * configured to split a multi-bin output into separate single-bin * models as it processed. These should not be queried until after * the transform has completed. */ virtual Models getAdditionalOutputModels() { return Models(); } /** * Return true if the current transform is one that may produce * additional models (to be retrieved through * getAdditionalOutputModels above). */ virtual bool willHaveAdditionalOutputModels() { return false; } /** * Return the set of additional models, also detaching them from * the transformer. The caller takes ownership of the models. */ virtual Models detachAdditionalOutputModels() { m_detachedAdd = true; return getAdditionalOutputModels(); } /** * Return a warning or error message. If getOutputModel returned * a null pointer, this should contain a fatal error message for * the transformer; otherwise it may contain a warning to show to * the user about e.g. suboptimal block size or whatever. */ QString getMessage() const { return m_message; } protected: ModelTransformer(Input input, const Transform &transform); ModelTransformer(Input input, const Transforms &transforms); virtual void awaitOutputModels() = 0; Transforms m_transforms; Input m_input; // I don't own the model in this Models m_outputs; // I own this, unless... bool m_detached; // ... this is true. bool m_detachedAdd; bool m_abandoned; QString m_message; }; #endif