juicysfplugin/modules/juce_gui_basics/positioning/juce_RelativeParallelogram.cpp

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/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2017 - ROLI Ltd.
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 5 End-User License
Agreement and JUCE 5 Privacy Policy (both updated and effective as of the
27th April 2017).
End User License Agreement: www.juce.com/juce-5-licence
Privacy Policy: www.juce.com/juce-5-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
{
RelativeParallelogram::RelativeParallelogram()
{
}
RelativeParallelogram::RelativeParallelogram (const Rectangle<float>& r)
: topLeft (r.getTopLeft()), topRight (r.getTopRight()), bottomLeft (r.getBottomLeft())
{
}
RelativeParallelogram::RelativeParallelogram (const RelativePoint& topLeft_, const RelativePoint& topRight_, const RelativePoint& bottomLeft_)
: topLeft (topLeft_), topRight (topRight_), bottomLeft (bottomLeft_)
{
}
RelativeParallelogram::RelativeParallelogram (const String& topLeft_, const String& topRight_, const String& bottomLeft_)
: topLeft (topLeft_), topRight (topRight_), bottomLeft (bottomLeft_)
{
}
RelativeParallelogram::~RelativeParallelogram()
{
}
void RelativeParallelogram::resolveThreePoints (Point<float>* points, Expression::Scope* const scope) const
{
points[0] = topLeft.resolve (scope);
points[1] = topRight.resolve (scope);
points[2] = bottomLeft.resolve (scope);
}
void RelativeParallelogram::resolveFourCorners (Point<float>* points, Expression::Scope* const scope) const
{
resolveThreePoints (points, scope);
points[3] = points[1] + (points[2] - points[0]);
}
const Rectangle<float> RelativeParallelogram::getBounds (Expression::Scope* const scope) const
{
Point<float> points[4];
resolveFourCorners (points, scope);
return Rectangle<float>::findAreaContainingPoints (points, 4);
}
void RelativeParallelogram::getPath (Path& path, Expression::Scope* const scope) const
{
Point<float> points[4];
resolveFourCorners (points, scope);
path.startNewSubPath (points[0]);
path.lineTo (points[1]);
path.lineTo (points[3]);
path.lineTo (points[2]);
path.closeSubPath();
}
AffineTransform RelativeParallelogram::resetToPerpendicular (Expression::Scope* const scope)
{
Point<float> corners[3];
resolveThreePoints (corners, scope);
const Line<float> top (corners[0], corners[1]);
const Line<float> left (corners[0], corners[2]);
const Point<float> newTopRight (corners[0] + Point<float> (top.getLength(), 0.0f));
const Point<float> newBottomLeft (corners[0] + Point<float> (0.0f, left.getLength()));
topRight.moveToAbsolute (newTopRight, scope);
bottomLeft.moveToAbsolute (newBottomLeft, scope);
return AffineTransform::fromTargetPoints (corners[0], corners[0],
corners[1], newTopRight,
corners[2], newBottomLeft);
}
bool RelativeParallelogram::isDynamic() const
{
return topLeft.isDynamic() || topRight.isDynamic() || bottomLeft.isDynamic();
}
bool RelativeParallelogram::operator== (const RelativeParallelogram& other) const noexcept
{
return topLeft == other.topLeft && topRight == other.topRight && bottomLeft == other.bottomLeft;
}
bool RelativeParallelogram::operator!= (const RelativeParallelogram& other) const noexcept
{
return ! operator== (other);
}
Point<float> RelativeParallelogram::getInternalCoordForPoint (const Point<float>* const corners, Point<float> target) noexcept
{
const Point<float> tr (corners[1] - corners[0]);
const Point<float> bl (corners[2] - corners[0]);
target -= corners[0];
return Point<float> (Line<float> (Point<float>(), tr).getIntersection (Line<float> (target, target - bl)).getDistanceFromOrigin(),
Line<float> (Point<float>(), bl).getIntersection (Line<float> (target, target - tr)).getDistanceFromOrigin());
}
Point<float> RelativeParallelogram::getPointForInternalCoord (const Point<float>* const corners, const Point<float> point) noexcept
{
return corners[0]
+ Line<float> (Point<float>(), corners[1] - corners[0]).getPointAlongLine (point.x)
+ Line<float> (Point<float>(), corners[2] - corners[0]).getPointAlongLine (point.y);
}
Rectangle<float> RelativeParallelogram::getBoundingBox (const Point<float>* const p) noexcept
{
const Point<float> points[] = { p[0], p[1], p[2], p[1] + (p[2] - p[0]) };
return Rectangle<float>::findAreaContainingPoints (points, 4);
}
} // namespace juce