/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2020 - Raw Material Software Limited JUCE is an open source library subject to commercial or open-source licensing. By using JUCE, you agree to the terms of both the JUCE 6 End-User License Agreement and JUCE Privacy Policy (both effective as of the 16th June 2020). End User License Agreement: www.juce.com/juce-6-licence Privacy Policy: www.juce.com/juce-privacy-policy Or: You may also use this code under the terms of the GPL v3 (see www.gnu.org/licenses). JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ namespace juce { namespace ValueTreeSynchroniserHelpers { enum ChangeType { propertyChanged = 1, fullSync = 2, childAdded = 3, childRemoved = 4, childMoved = 5, propertyRemoved = 6 }; static void getValueTreePath (ValueTree v, const ValueTree& topLevelTree, Array& path) { while (v != topLevelTree) { ValueTree parent (v.getParent()); if (! parent.isValid()) break; path.add (parent.indexOf (v)); v = parent; } } static void writeHeader (MemoryOutputStream& stream, ChangeType type) { stream.writeByte ((char) type); } static void writeHeader (ValueTreeSynchroniser& target, MemoryOutputStream& stream, ChangeType type, ValueTree v) { writeHeader (stream, type); Array path; getValueTreePath (v, target.getRoot(), path); stream.writeCompressedInt (path.size()); for (int i = path.size(); --i >= 0;) stream.writeCompressedInt (path.getUnchecked(i)); } static ValueTree readSubTreeLocation (MemoryInputStream& input, ValueTree v) { const int numLevels = input.readCompressedInt(); if (! isPositiveAndBelow (numLevels, 65536)) // sanity-check return {}; for (int i = numLevels; --i >= 0;) { const int index = input.readCompressedInt(); if (! isPositiveAndBelow (index, v.getNumChildren())) return {}; v = v.getChild (index); } return v; } } ValueTreeSynchroniser::ValueTreeSynchroniser (const ValueTree& tree) : valueTree (tree) { valueTree.addListener (this); } ValueTreeSynchroniser::~ValueTreeSynchroniser() { valueTree.removeListener (this); } void ValueTreeSynchroniser::sendFullSyncCallback() { MemoryOutputStream m; writeHeader (m, ValueTreeSynchroniserHelpers::fullSync); valueTree.writeToStream (m); stateChanged (m.getData(), m.getDataSize()); } void ValueTreeSynchroniser::valueTreePropertyChanged (ValueTree& vt, const Identifier& property) { MemoryOutputStream m; if (auto* value = vt.getPropertyPointer (property)) { ValueTreeSynchroniserHelpers::writeHeader (*this, m, ValueTreeSynchroniserHelpers::propertyChanged, vt); m.writeString (property.toString()); value->writeToStream (m); } else { ValueTreeSynchroniserHelpers::writeHeader (*this, m, ValueTreeSynchroniserHelpers::propertyRemoved, vt); m.writeString (property.toString()); } stateChanged (m.getData(), m.getDataSize()); } void ValueTreeSynchroniser::valueTreeChildAdded (ValueTree& parentTree, ValueTree& childTree) { const int index = parentTree.indexOf (childTree); jassert (index >= 0); MemoryOutputStream m; ValueTreeSynchroniserHelpers::writeHeader (*this, m, ValueTreeSynchroniserHelpers::childAdded, parentTree); m.writeCompressedInt (index); childTree.writeToStream (m); stateChanged (m.getData(), m.getDataSize()); } void ValueTreeSynchroniser::valueTreeChildRemoved (ValueTree& parentTree, ValueTree&, int oldIndex) { MemoryOutputStream m; ValueTreeSynchroniserHelpers::writeHeader (*this, m, ValueTreeSynchroniserHelpers::childRemoved, parentTree); m.writeCompressedInt (oldIndex); stateChanged (m.getData(), m.getDataSize()); } void ValueTreeSynchroniser::valueTreeChildOrderChanged (ValueTree& parent, int oldIndex, int newIndex) { MemoryOutputStream m; ValueTreeSynchroniserHelpers::writeHeader (*this, m, ValueTreeSynchroniserHelpers::childMoved, parent); m.writeCompressedInt (oldIndex); m.writeCompressedInt (newIndex); stateChanged (m.getData(), m.getDataSize()); } bool ValueTreeSynchroniser::applyChange (ValueTree& root, const void* data, size_t dataSize, UndoManager* undoManager) { MemoryInputStream input (data, dataSize, false); const ValueTreeSynchroniserHelpers::ChangeType type = (ValueTreeSynchroniserHelpers::ChangeType) input.readByte(); if (type == ValueTreeSynchroniserHelpers::fullSync) { root = ValueTree::readFromStream (input); return true; } ValueTree v (ValueTreeSynchroniserHelpers::readSubTreeLocation (input, root)); if (! v.isValid()) return false; switch (type) { case ValueTreeSynchroniserHelpers::propertyChanged: { Identifier property (input.readString()); v.setProperty (property, var::readFromStream (input), undoManager); return true; } case ValueTreeSynchroniserHelpers::propertyRemoved: { Identifier property (input.readString()); v.removeProperty (property, undoManager); return true; } case ValueTreeSynchroniserHelpers::childAdded: { const int index = input.readCompressedInt(); v.addChild (ValueTree::readFromStream (input), index, undoManager); return true; } case ValueTreeSynchroniserHelpers::childRemoved: { const int index = input.readCompressedInt(); if (isPositiveAndBelow (index, v.getNumChildren())) { v.removeChild (index, undoManager); return true; } jassertfalse; // Either received some corrupt data, or the trees have drifted out of sync break; } case ValueTreeSynchroniserHelpers::childMoved: { const int oldIndex = input.readCompressedInt(); const int newIndex = input.readCompressedInt(); if (isPositiveAndBelow (oldIndex, v.getNumChildren()) && isPositiveAndBelow (newIndex, v.getNumChildren())) { v.moveChild (oldIndex, newIndex, undoManager); return true; } jassertfalse; // Either received some corrupt data, or the trees have drifted out of sync break; } case ValueTreeSynchroniserHelpers::fullSync: break; default: jassertfalse; // Seem to have received some corrupt data? break; } return false; } } // namespace juce