/* ============================================================================== 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 { struct MarkerListScope : public Expression::Scope { MarkerListScope (Component& comp) : component (comp) {} Expression getSymbolValue (const String& symbol) const override { auto type = RelativeCoordinate::StandardStrings::getTypeOf (symbol); if (type == RelativeCoordinate::StandardStrings::width) return Expression ((double) component.getWidth()); if (type == RelativeCoordinate::StandardStrings::height) return Expression ((double) component.getHeight()); MarkerList* list; if (auto* marker = findMarker (component, symbol, list)) return Expression (marker->position.getExpression().evaluate (*this)); return Expression::Scope::getSymbolValue (symbol); } void visitRelativeScope (const String& scopeName, Visitor& visitor) const override { if (scopeName == RelativeCoordinate::Strings::parent) { if (auto* parent = component.getParentComponent()) { visitor.visit (MarkerListScope (*parent)); return; } } Expression::Scope::visitRelativeScope (scopeName, visitor); } String getScopeUID() const override { return String::toHexString ((pointer_sized_int) (void*) &component) + "m"; } static const MarkerList::Marker* findMarker (Component& component, const String& name, MarkerList*& list) { const MarkerList::Marker* marker = nullptr; auto* mlh = dynamic_cast (&component); if (mlh != nullptr) { list = mlh->getMarkers (true); if (list != nullptr) marker = list->getMarker (name); } if (marker == nullptr) { if (mlh != nullptr) { list = mlh->getMarkers (false); if (list != nullptr) marker = list->getMarker (name); } } return marker; } Component& component; }; //============================================================================== RelativeCoordinatePositionerBase::ComponentScope::ComponentScope (Component& comp) : component (comp) { } Expression RelativeCoordinatePositionerBase::ComponentScope::getSymbolValue (const String& symbol) const { switch (RelativeCoordinate::StandardStrings::getTypeOf (symbol)) { case RelativeCoordinate::StandardStrings::x: case RelativeCoordinate::StandardStrings::left: return Expression ((double) component.getX()); case RelativeCoordinate::StandardStrings::y: case RelativeCoordinate::StandardStrings::top: return Expression ((double) component.getY()); case RelativeCoordinate::StandardStrings::width: return Expression ((double) component.getWidth()); case RelativeCoordinate::StandardStrings::height: return Expression ((double) component.getHeight()); case RelativeCoordinate::StandardStrings::right: return Expression ((double) component.getRight()); case RelativeCoordinate::StandardStrings::bottom: return Expression ((double) component.getBottom()); case RelativeCoordinate::StandardStrings::parent: case RelativeCoordinate::StandardStrings::unknown: default: break; } if (Component* const parent = component.getParentComponent()) { MarkerList* list; if (auto* marker = MarkerListScope::findMarker (*parent, symbol, list)) { MarkerListScope scope (*parent); return Expression (marker->position.getExpression().evaluate (scope)); } } return Expression::Scope::getSymbolValue (symbol); } void RelativeCoordinatePositionerBase::ComponentScope::visitRelativeScope (const String& scopeName, Visitor& visitor) const { if (auto* targetComp = (scopeName == RelativeCoordinate::Strings::parent) ? component.getParentComponent() : findSiblingComponent (scopeName)) visitor.visit (ComponentScope (*targetComp)); else Expression::Scope::visitRelativeScope (scopeName, visitor); } String RelativeCoordinatePositionerBase::ComponentScope::getScopeUID() const { return String::toHexString ((pointer_sized_int) (void*) &component); } Component* RelativeCoordinatePositionerBase::ComponentScope::findSiblingComponent (const String& componentID) const { if (Component* const parent = component.getParentComponent()) return parent->findChildWithID (componentID); return nullptr; } //============================================================================== class RelativeCoordinatePositionerBase::DependencyFinderScope : public ComponentScope { public: DependencyFinderScope (Component& comp, RelativeCoordinatePositionerBase& p, bool& result) : ComponentScope (comp), positioner (p), ok (result) { } Expression getSymbolValue (const String& symbol) const override { switch (RelativeCoordinate::StandardStrings::getTypeOf (symbol)) { case RelativeCoordinate::StandardStrings::x: case RelativeCoordinate::StandardStrings::left: case RelativeCoordinate::StandardStrings::y: case RelativeCoordinate::StandardStrings::top: case RelativeCoordinate::StandardStrings::width: case RelativeCoordinate::StandardStrings::height: case RelativeCoordinate::StandardStrings::right: case RelativeCoordinate::StandardStrings::bottom: positioner.registerComponentListener (component); break; case RelativeCoordinate::StandardStrings::parent: case RelativeCoordinate::StandardStrings::unknown: default: if (auto* parent = component.getParentComponent()) { MarkerList* list; if (MarkerListScope::findMarker (*parent, symbol, list) != nullptr) { positioner.registerMarkerListListener (list); } else { // The marker we want doesn't exist, so watch all lists in case they change and the marker appears later.. if (auto* mlh = dynamic_cast (parent)) { positioner.registerMarkerListListener (mlh->getMarkers (true)); positioner.registerMarkerListListener (mlh->getMarkers (false)); } ok = false; } } break; } return ComponentScope::getSymbolValue (symbol); } void visitRelativeScope (const String& scopeName, Visitor& visitor) const override { if (Component* const targetComp = (scopeName == RelativeCoordinate::Strings::parent) ? component.getParentComponent() : findSiblingComponent (scopeName)) { visitor.visit (DependencyFinderScope (*targetComp, positioner, ok)); } else { // The named component doesn't exist, so we'll watch the parent for changes in case it appears later.. if (Component* const parent = component.getParentComponent()) positioner.registerComponentListener (*parent); positioner.registerComponentListener (component); ok = false; } } private: RelativeCoordinatePositionerBase& positioner; bool& ok; }; //============================================================================== RelativeCoordinatePositionerBase::RelativeCoordinatePositionerBase (Component& comp) : Component::Positioner (comp), registeredOk (false) { } RelativeCoordinatePositionerBase::~RelativeCoordinatePositionerBase() { unregisterListeners(); } void RelativeCoordinatePositionerBase::componentMovedOrResized (Component&, bool /*wasMoved*/, bool /*wasResized*/) { apply(); } void RelativeCoordinatePositionerBase::componentParentHierarchyChanged (Component&) { apply(); } void RelativeCoordinatePositionerBase::componentChildrenChanged (Component& changed) { if (getComponent().getParentComponent() == &changed && ! registeredOk) apply(); } void RelativeCoordinatePositionerBase::componentBeingDeleted (Component& comp) { jassert (sourceComponents.contains (&comp)); sourceComponents.removeFirstMatchingValue (&comp); registeredOk = false; } void RelativeCoordinatePositionerBase::markersChanged (MarkerList*) { apply(); } void RelativeCoordinatePositionerBase::markerListBeingDeleted (MarkerList* markerList) { jassert (sourceMarkerLists.contains (markerList)); sourceMarkerLists.removeFirstMatchingValue (markerList); } void RelativeCoordinatePositionerBase::apply() { if (! registeredOk) { unregisterListeners(); registeredOk = registerCoordinates(); } applyToComponentBounds(); } bool RelativeCoordinatePositionerBase::addCoordinate (const RelativeCoordinate& coord) { bool ok = true; DependencyFinderScope finderScope (getComponent(), *this, ok); coord.getExpression().evaluate (finderScope); return ok; } bool RelativeCoordinatePositionerBase::addPoint (const RelativePoint& point) { const bool ok = addCoordinate (point.x); return addCoordinate (point.y) && ok; } void RelativeCoordinatePositionerBase::registerComponentListener (Component& comp) { if (! sourceComponents.contains (&comp)) { comp.addComponentListener (this); sourceComponents.add (&comp); } } void RelativeCoordinatePositionerBase::registerMarkerListListener (MarkerList* const list) { if (list != nullptr && ! sourceMarkerLists.contains (list)) { list->addListener (this); sourceMarkerLists.add (list); } } void RelativeCoordinatePositionerBase::unregisterListeners() { for (int i = sourceComponents.size(); --i >= 0;) sourceComponents.getUnchecked(i)->removeComponentListener (this); for (int i = sourceMarkerLists.size(); --i >= 0;) sourceMarkerLists.getUnchecked(i)->removeListener (this); sourceComponents.clear(); sourceMarkerLists.clear(); } } // namespace juce