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dexed/JuceLibraryCode/modules/juce_gui_basics/drawables/juce_DrawableText.cpp

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11 KiB

/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2013 - Raw Material Software Ltd.
Permission is granted to use this software under the terms of either:
a) the GPL v2 (or any later version)
b) the Affero GPL v3
Details of these licenses can be found at: www.gnu.org/licenses
JUCE is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
A PARTICULAR PURPOSE. See the GNU General Public License for more details.
------------------------------------------------------------------------------
To release a closed-source product which uses JUCE, commercial licenses are
available: visit www.juce.com for more information.
==============================================================================
*/
DrawableText::DrawableText()
: colour (Colours::black),
justification (Justification::centredLeft)
{
setBoundingBox (RelativeParallelogram (RelativePoint (0.0f, 0.0f),
RelativePoint (50.0f, 0.0f),
RelativePoint (0.0f, 20.0f)));
setFont (Font (15.0f), true);
}
DrawableText::DrawableText (const DrawableText& other)
: Drawable (other),
bounds (other.bounds),
fontHeight (other.fontHeight),
fontHScale (other.fontHScale),
font (other.font),
text (other.text),
colour (other.colour),
justification (other.justification)
{
refreshBounds();
}
DrawableText::~DrawableText()
{
}
//==============================================================================
void DrawableText::setText (const String& newText)
{
if (text != newText)
{
text = newText;
refreshBounds();
}
}
void DrawableText::setColour (Colour newColour)
{
if (colour != newColour)
{
colour = newColour;
repaint();
}
}
void DrawableText::setFont (const Font& newFont, bool applySizeAndScale)
{
if (font != newFont)
{
font = newFont;
if (applySizeAndScale)
{
fontHeight = font.getHeight();
fontHScale = font.getHorizontalScale();
}
refreshBounds();
}
}
void DrawableText::setJustification (Justification newJustification)
{
justification = newJustification;
repaint();
}
void DrawableText::setBoundingBox (const RelativeParallelogram& newBounds)
{
if (bounds != newBounds)
{
bounds = newBounds;
refreshBounds();
}
}
void DrawableText::setFontHeight (const RelativeCoordinate& newHeight)
{
if (fontHeight != newHeight)
{
fontHeight = newHeight;
refreshBounds();
}
}
void DrawableText::setFontHorizontalScale (const RelativeCoordinate& newScale)
{
if (fontHScale != newScale)
{
fontHScale = newScale;
refreshBounds();
}
}
void DrawableText::refreshBounds()
{
if (bounds.isDynamic() || fontHeight.isDynamic() || fontHScale.isDynamic())
{
Drawable::Positioner<DrawableText>* const p = new Drawable::Positioner<DrawableText> (*this);
setPositioner (p);
p->apply();
}
else
{
setPositioner (0);
recalculateCoordinates (0);
}
}
bool DrawableText::registerCoordinates (RelativeCoordinatePositionerBase& pos)
{
bool ok = pos.addPoint (bounds.topLeft);
ok = pos.addPoint (bounds.topRight) && ok;
ok = pos.addPoint (bounds.bottomLeft) && ok;
ok = pos.addCoordinate (fontHeight) && ok;
return pos.addCoordinate (fontHScale) && ok;
}
void DrawableText::recalculateCoordinates (Expression::Scope* scope)
{
bounds.resolveThreePoints (resolvedPoints, scope);
const float w = Line<float> (resolvedPoints[0], resolvedPoints[1]).getLength();
const float h = Line<float> (resolvedPoints[0], resolvedPoints[2]).getLength();
const float height = jlimit (0.01f, jmax (0.01f, h), (float) fontHeight.resolve (scope));
const float hscale = jlimit (0.01f, jmax (0.01f, w), (float) fontHScale.resolve (scope));
scaledFont = font;
scaledFont.setHeight (height);
scaledFont.setHorizontalScale (hscale);
setBoundsToEnclose (getDrawableBounds());
repaint();
}
//==============================================================================
void DrawableText::paint (Graphics& g)
{
transformContextToCorrectOrigin (g);
const float w = Line<float> (resolvedPoints[0], resolvedPoints[1]).getLength();
const float h = Line<float> (resolvedPoints[0], resolvedPoints[2]).getLength();
g.addTransform (AffineTransform::fromTargetPoints (0, 0, resolvedPoints[0].x, resolvedPoints[0].y,
w, 0, resolvedPoints[1].x, resolvedPoints[1].y,
0, h, resolvedPoints[2].x, resolvedPoints[2].y));
g.setFont (scaledFont);
g.setColour (colour);
g.drawFittedText (text, Rectangle<float> (w, h).getSmallestIntegerContainer(), justification, 0x100000);
}
Rectangle<float> DrawableText::getDrawableBounds() const
{
return RelativeParallelogram::getBoundingBox (resolvedPoints);
}
Drawable* DrawableText::createCopy() const
{
return new DrawableText (*this);
}
//==============================================================================
const Identifier DrawableText::valueTreeType ("Text");
const Identifier DrawableText::ValueTreeWrapper::text ("text");
const Identifier DrawableText::ValueTreeWrapper::colour ("colour");
const Identifier DrawableText::ValueTreeWrapper::font ("font");
const Identifier DrawableText::ValueTreeWrapper::justification ("justification");
const Identifier DrawableText::ValueTreeWrapper::topLeft ("topLeft");
const Identifier DrawableText::ValueTreeWrapper::topRight ("topRight");
const Identifier DrawableText::ValueTreeWrapper::bottomLeft ("bottomLeft");
const Identifier DrawableText::ValueTreeWrapper::fontHeight ("fontHeight");
const Identifier DrawableText::ValueTreeWrapper::fontHScale ("fontHScale");
//==============================================================================
DrawableText::ValueTreeWrapper::ValueTreeWrapper (const ValueTree& state_)
: ValueTreeWrapperBase (state_)
{
jassert (state.hasType (valueTreeType));
}
String DrawableText::ValueTreeWrapper::getText() const
{
return state [text].toString();
}
void DrawableText::ValueTreeWrapper::setText (const String& newText, UndoManager* undoManager)
{
state.setProperty (text, newText, undoManager);
}
Value DrawableText::ValueTreeWrapper::getTextValue (UndoManager* undoManager)
{
return state.getPropertyAsValue (text, undoManager);
}
Colour DrawableText::ValueTreeWrapper::getColour() const
{
return Colour::fromString (state [colour].toString());
}
void DrawableText::ValueTreeWrapper::setColour (Colour newColour, UndoManager* undoManager)
{
state.setProperty (colour, newColour.toString(), undoManager);
}
Justification DrawableText::ValueTreeWrapper::getJustification() const
{
return Justification ((int) state [justification]);
}
void DrawableText::ValueTreeWrapper::setJustification (Justification newJustification, UndoManager* undoManager)
{
state.setProperty (justification, newJustification.getFlags(), undoManager);
}
Font DrawableText::ValueTreeWrapper::getFont() const
{
return Font::fromString (state [font]);
}
void DrawableText::ValueTreeWrapper::setFont (const Font& newFont, UndoManager* undoManager)
{
state.setProperty (font, newFont.toString(), undoManager);
}
Value DrawableText::ValueTreeWrapper::getFontValue (UndoManager* undoManager)
{
return state.getPropertyAsValue (font, undoManager);
}
RelativeParallelogram DrawableText::ValueTreeWrapper::getBoundingBox() const
{
return RelativeParallelogram (state [topLeft].toString(), state [topRight].toString(), state [bottomLeft].toString());
}
void DrawableText::ValueTreeWrapper::setBoundingBox (const RelativeParallelogram& newBounds, UndoManager* undoManager)
{
state.setProperty (topLeft, newBounds.topLeft.toString(), undoManager);
state.setProperty (topRight, newBounds.topRight.toString(), undoManager);
state.setProperty (bottomLeft, newBounds.bottomLeft.toString(), undoManager);
}
RelativeCoordinate DrawableText::ValueTreeWrapper::getFontHeight() const
{
return state [fontHeight].toString();
}
void DrawableText::ValueTreeWrapper::setFontHeight (const RelativeCoordinate& coord, UndoManager* undoManager)
{
state.setProperty (fontHeight, coord.toString(), undoManager);
}
RelativeCoordinate DrawableText::ValueTreeWrapper::getFontHorizontalScale() const
{
return state [fontHScale].toString();
}
void DrawableText::ValueTreeWrapper::setFontHorizontalScale (const RelativeCoordinate& coord, UndoManager* undoManager)
{
state.setProperty (fontHScale, coord.toString(), undoManager);
}
//==============================================================================
void DrawableText::refreshFromValueTree (const ValueTree& tree, ComponentBuilder&)
{
ValueTreeWrapper v (tree);
setComponentID (v.getID());
const RelativeParallelogram newBounds (v.getBoundingBox());
const RelativeCoordinate newFontHeight (v.getFontHeight());
const RelativeCoordinate newFontHScale (v.getFontHorizontalScale());
const Colour newColour (v.getColour());
const Justification newJustification (v.getJustification());
const String newText (v.getText());
const Font newFont (v.getFont());
if (text != newText || font != newFont || justification != newJustification
|| colour != newColour || bounds != newBounds
|| newFontHeight != fontHeight || newFontHScale != fontHScale)
{
setBoundingBox (newBounds);
setFontHeight (newFontHeight);
setFontHorizontalScale (newFontHScale);
setColour (newColour);
setFont (newFont, false);
setJustification (newJustification);
setText (newText);
}
}
ValueTree DrawableText::createValueTree (ComponentBuilder::ImageProvider*) const
{
ValueTree tree (valueTreeType);
ValueTreeWrapper v (tree);
v.setID (getComponentID());
v.setText (text, nullptr);
v.setFont (font, nullptr);
v.setJustification (justification, nullptr);
v.setColour (colour, nullptr);
v.setBoundingBox (bounds, nullptr);
v.setFontHeight (fontHeight, nullptr);
v.setFontHorizontalScale (fontHScale, nullptr);
return tree;
}