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290 lines
9.4 KiB
290 lines
9.4 KiB
/*
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==============================================================================
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This file is part of the JUCE library.
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Copyright (c) 2015 - ROLI Ltd.
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Permission is granted to use this software under the terms of either:
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a) the GPL v2 (or any later version)
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b) the Affero GPL v3
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Details of these licenses can be found at: www.gnu.org/licenses
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JUCE is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
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A PARTICULAR PURPOSE. See the GNU General Public License for more details.
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------------------------------------------------------------------------------
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To release a closed-source product which uses JUCE, commercial licenses are
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available: visit www.juce.com for more information.
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==============================================================================
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*/
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DrawableImage::DrawableImage()
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: opacity (1.0f),
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overlayColour (0x00000000)
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{
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bounds.topRight = RelativePoint (Point<float> (1.0f, 0.0f));
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bounds.bottomLeft = RelativePoint (Point<float> (0.0f, 1.0f));
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}
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DrawableImage::DrawableImage (const DrawableImage& other)
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: Drawable (other),
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image (other.image),
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opacity (other.opacity),
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overlayColour (other.overlayColour),
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bounds (other.bounds)
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{
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setBounds (other.getBounds());
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}
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DrawableImage::~DrawableImage()
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{
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}
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//==============================================================================
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void DrawableImage::setImage (const Image& imageToUse)
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{
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image = imageToUse;
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setBounds (imageToUse.getBounds());
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bounds.topLeft = RelativePoint (Point<float> (0.0f, 0.0f));
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bounds.topRight = RelativePoint (Point<float> ((float) image.getWidth(), 0.0f));
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bounds.bottomLeft = RelativePoint (Point<float> (0.0f, (float) image.getHeight()));
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recalculateCoordinates (nullptr);
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repaint();
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}
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void DrawableImage::setOpacity (const float newOpacity)
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{
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opacity = newOpacity;
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}
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void DrawableImage::setOverlayColour (Colour newOverlayColour)
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{
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overlayColour = newOverlayColour;
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}
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void DrawableImage::setBoundingBox (const RelativeParallelogram& newBounds)
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{
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if (bounds != newBounds)
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{
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bounds = newBounds;
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if (bounds.isDynamic())
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{
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Drawable::Positioner<DrawableImage>* const p = new Drawable::Positioner<DrawableImage> (*this);
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setPositioner (p);
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p->apply();
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}
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else
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{
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setPositioner (nullptr);
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recalculateCoordinates (nullptr);
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}
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}
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}
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//==============================================================================
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bool DrawableImage::registerCoordinates (RelativeCoordinatePositionerBase& pos)
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{
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bool ok = pos.addPoint (bounds.topLeft);
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ok = pos.addPoint (bounds.topRight) && ok;
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return pos.addPoint (bounds.bottomLeft) && ok;
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}
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void DrawableImage::recalculateCoordinates (Expression::Scope* scope)
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{
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if (image.isValid())
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{
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Point<float> resolved[3];
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bounds.resolveThreePoints (resolved, scope);
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const Point<float> tr (resolved[0] + (resolved[1] - resolved[0]) / (float) image.getWidth());
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const Point<float> bl (resolved[0] + (resolved[2] - resolved[0]) / (float) image.getHeight());
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AffineTransform t (AffineTransform::fromTargetPoints (resolved[0].x, resolved[0].y,
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tr.x, tr.y,
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bl.x, bl.y));
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if (t.isSingularity())
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t = AffineTransform::identity;
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setTransform (t);
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}
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}
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//==============================================================================
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void DrawableImage::paint (Graphics& g)
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{
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if (image.isValid())
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{
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if (opacity > 0.0f && ! overlayColour.isOpaque())
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{
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g.setOpacity (opacity);
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g.drawImageAt (image, 0, 0, false);
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}
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if (! overlayColour.isTransparent())
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{
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g.setColour (overlayColour.withMultipliedAlpha (opacity));
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g.drawImageAt (image, 0, 0, true);
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}
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}
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}
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Rectangle<float> DrawableImage::getDrawableBounds() const
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{
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return image.getBounds().toFloat();
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}
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bool DrawableImage::hitTest (int x, int y)
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{
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return Drawable::hitTest (x, y) && image.isValid() && image.getPixelAt (x, y).getAlpha() >= 127;
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}
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Drawable* DrawableImage::createCopy() const
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{
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return new DrawableImage (*this);
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}
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//==============================================================================
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const Identifier DrawableImage::valueTreeType ("Image");
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const Identifier DrawableImage::ValueTreeWrapper::opacity ("opacity");
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const Identifier DrawableImage::ValueTreeWrapper::overlay ("overlay");
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const Identifier DrawableImage::ValueTreeWrapper::image ("image");
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const Identifier DrawableImage::ValueTreeWrapper::topLeft ("topLeft");
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const Identifier DrawableImage::ValueTreeWrapper::topRight ("topRight");
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const Identifier DrawableImage::ValueTreeWrapper::bottomLeft ("bottomLeft");
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//==============================================================================
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DrawableImage::ValueTreeWrapper::ValueTreeWrapper (const ValueTree& state_)
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: ValueTreeWrapperBase (state_)
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{
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jassert (state.hasType (valueTreeType));
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}
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var DrawableImage::ValueTreeWrapper::getImageIdentifier() const
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{
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return state [image];
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}
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Value DrawableImage::ValueTreeWrapper::getImageIdentifierValue (UndoManager* undoManager)
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{
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return state.getPropertyAsValue (image, undoManager);
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}
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void DrawableImage::ValueTreeWrapper::setImageIdentifier (const var& newIdentifier, UndoManager* undoManager)
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{
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state.setProperty (image, newIdentifier, undoManager);
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}
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float DrawableImage::ValueTreeWrapper::getOpacity() const
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{
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return (float) state.getProperty (opacity, 1.0);
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}
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Value DrawableImage::ValueTreeWrapper::getOpacityValue (UndoManager* undoManager)
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{
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if (! state.hasProperty (opacity))
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state.setProperty (opacity, 1.0, undoManager);
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return state.getPropertyAsValue (opacity, undoManager);
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}
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void DrawableImage::ValueTreeWrapper::setOpacity (float newOpacity, UndoManager* undoManager)
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{
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state.setProperty (opacity, newOpacity, undoManager);
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}
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Colour DrawableImage::ValueTreeWrapper::getOverlayColour() const
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{
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return Colour::fromString (state [overlay].toString());
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}
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void DrawableImage::ValueTreeWrapper::setOverlayColour (Colour newColour, UndoManager* undoManager)
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{
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if (newColour.isTransparent())
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state.removeProperty (overlay, undoManager);
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else
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state.setProperty (overlay, String::toHexString ((int) newColour.getARGB()), undoManager);
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}
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Value DrawableImage::ValueTreeWrapper::getOverlayColourValue (UndoManager* undoManager)
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{
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return state.getPropertyAsValue (overlay, undoManager);
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}
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RelativeParallelogram DrawableImage::ValueTreeWrapper::getBoundingBox() const
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{
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return RelativeParallelogram (state.getProperty (topLeft, "0, 0"),
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state.getProperty (topRight, "100, 0"),
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state.getProperty (bottomLeft, "0, 100"));
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}
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void DrawableImage::ValueTreeWrapper::setBoundingBox (const RelativeParallelogram& newBounds, UndoManager* undoManager)
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{
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state.setProperty (topLeft, newBounds.topLeft.toString(), undoManager);
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state.setProperty (topRight, newBounds.topRight.toString(), undoManager);
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state.setProperty (bottomLeft, newBounds.bottomLeft.toString(), undoManager);
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}
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//==============================================================================
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void DrawableImage::refreshFromValueTree (const ValueTree& tree, ComponentBuilder& builder)
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{
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const ValueTreeWrapper controller (tree);
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setComponentID (controller.getID());
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const float newOpacity = controller.getOpacity();
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const Colour newOverlayColour (controller.getOverlayColour());
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Image newImage;
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const var imageIdentifier (controller.getImageIdentifier());
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jassert (builder.getImageProvider() != 0 || imageIdentifier.isVoid()); // if you're using images, you need to provide something that can load and save them!
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if (builder.getImageProvider() != nullptr)
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newImage = builder.getImageProvider()->getImageForIdentifier (imageIdentifier);
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const RelativeParallelogram newBounds (controller.getBoundingBox());
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if (bounds != newBounds || newOpacity != opacity
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|| overlayColour != newOverlayColour || image != newImage)
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{
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repaint();
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opacity = newOpacity;
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overlayColour = newOverlayColour;
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if (image != newImage)
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setImage (newImage);
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setBoundingBox (newBounds);
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}
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}
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ValueTree DrawableImage::createValueTree (ComponentBuilder::ImageProvider* imageProvider) const
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{
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ValueTree tree (valueTreeType);
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ValueTreeWrapper v (tree);
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v.setID (getComponentID());
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v.setOpacity (opacity, nullptr);
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v.setOverlayColour (overlayColour, nullptr);
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v.setBoundingBox (bounds, nullptr);
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if (image.isValid())
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{
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jassert (imageProvider != nullptr); // if you're using images, you need to provide something that can load and save them!
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if (imageProvider != nullptr)
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v.setImageIdentifier (imageProvider->getIdentifierForImage (image), nullptr);
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}
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return tree;
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}
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