paulxstretch/deps/juce/modules/juce_gui_basics/layout/juce_ComponentBoundsConstrainer.cpp

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/*
==============================================================================
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
{
ComponentBoundsConstrainer::ComponentBoundsConstrainer() noexcept {}
ComponentBoundsConstrainer::~ComponentBoundsConstrainer() {}
//==============================================================================
void ComponentBoundsConstrainer::setMinimumWidth (int minimumWidth) noexcept { minW = minimumWidth; }
void ComponentBoundsConstrainer::setMaximumWidth (int maximumWidth) noexcept { maxW = maximumWidth; }
void ComponentBoundsConstrainer::setMinimumHeight (int minimumHeight) noexcept { minH = minimumHeight; }
void ComponentBoundsConstrainer::setMaximumHeight (int maximumHeight) noexcept { maxH = maximumHeight; }
void ComponentBoundsConstrainer::setMinimumSize (int minimumWidth, int minimumHeight) noexcept
{
jassert (maxW >= minimumWidth);
jassert (maxH >= minimumHeight);
jassert (minimumWidth > 0 && minimumHeight > 0);
minW = minimumWidth;
minH = minimumHeight;
if (minW > maxW) maxW = minW;
if (minH > maxH) maxH = minH;
}
void ComponentBoundsConstrainer::setMaximumSize (int maximumWidth, int maximumHeight) noexcept
{
jassert (maximumWidth >= minW);
jassert (maximumHeight >= minH);
jassert (maximumWidth > 0 && maximumHeight > 0);
maxW = jmax (minW, maximumWidth);
maxH = jmax (minH, maximumHeight);
}
void ComponentBoundsConstrainer::setSizeLimits (int minimumWidth,
int minimumHeight,
int maximumWidth,
int maximumHeight) noexcept
{
jassert (maximumWidth >= minimumWidth);
jassert (maximumHeight >= minimumHeight);
jassert (maximumWidth > 0 && maximumHeight > 0);
jassert (minimumWidth > 0 && minimumHeight > 0);
minW = jmax (0, minimumWidth);
minH = jmax (0, minimumHeight);
maxW = jmax (minW, maximumWidth);
maxH = jmax (minH, maximumHeight);
}
void ComponentBoundsConstrainer::setMinimumOnscreenAmounts (int minimumWhenOffTheTop,
int minimumWhenOffTheLeft,
int minimumWhenOffTheBottom,
int minimumWhenOffTheRight) noexcept
{
minOffTop = minimumWhenOffTheTop;
minOffLeft = minimumWhenOffTheLeft;
minOffBottom = minimumWhenOffTheBottom;
minOffRight = minimumWhenOffTheRight;
}
void ComponentBoundsConstrainer::setFixedAspectRatio (double widthOverHeight) noexcept
{
aspectRatio = jmax (0.0, widthOverHeight);
}
double ComponentBoundsConstrainer::getFixedAspectRatio() const noexcept
{
return aspectRatio;
}
void ComponentBoundsConstrainer::setBoundsForComponent (Component* component,
Rectangle<int> targetBounds,
bool isStretchingTop,
bool isStretchingLeft,
bool isStretchingBottom,
bool isStretchingRight)
{
jassert (component != nullptr);
Rectangle<int> limits, bounds (targetBounds);
BorderSize<int> border;
if (auto* parent = component->getParentComponent())
{
limits.setSize (parent->getWidth(), parent->getHeight());
}
else
{
if (auto* peer = component->getPeer())
border = peer->getFrameSize();
auto screenBounds = Desktop::getInstance().getDisplays().getDisplayForPoint (targetBounds.getCentre())->userArea;
limits = component->getLocalArea (nullptr, screenBounds) + component->getPosition();
}
border.addTo (bounds);
checkBounds (bounds,
border.addedTo (component->getBounds()), limits,
isStretchingTop, isStretchingLeft,
isStretchingBottom, isStretchingRight);
border.subtractFrom (bounds);
applyBoundsToComponent (*component, bounds);
}
void ComponentBoundsConstrainer::checkComponentBounds (Component* component)
{
setBoundsForComponent (component, component->getBounds(),
false, false, false, false);
}
void ComponentBoundsConstrainer::applyBoundsToComponent (Component& component, Rectangle<int> bounds)
{
if (auto* positioner = component.getPositioner())
positioner->applyNewBounds (bounds);
else
component.setBounds (bounds);
}
//==============================================================================
void ComponentBoundsConstrainer::resizeStart()
{
}
void ComponentBoundsConstrainer::resizeEnd()
{
}
//==============================================================================
void ComponentBoundsConstrainer::checkBounds (Rectangle<int>& bounds,
const Rectangle<int>& old,
const Rectangle<int>& limits,
bool isStretchingTop,
bool isStretchingLeft,
bool isStretchingBottom,
bool isStretchingRight)
{
if (isStretchingLeft)
bounds.setLeft (jlimit (old.getRight() - maxW, old.getRight() - minW, bounds.getX()));
else
bounds.setWidth (jlimit (minW, maxW, bounds.getWidth()));
if (isStretchingTop)
bounds.setTop (jlimit (old.getBottom() - maxH, old.getBottom() - minH, bounds.getY()));
else
bounds.setHeight (jlimit (minH, maxH, bounds.getHeight()));
if (bounds.isEmpty())
return;
if (minOffTop > 0)
{
const int limit = limits.getY() + jmin (minOffTop - bounds.getHeight(), 0);
if (bounds.getY() < limit)
{
if (isStretchingTop)
bounds.setTop (limits.getY());
else
bounds.setY (limit);
}
}
if (minOffLeft > 0)
{
const int limit = limits.getX() + jmin (minOffLeft - bounds.getWidth(), 0);
if (bounds.getX() < limit)
{
if (isStretchingLeft)
bounds.setLeft (limits.getX());
else
bounds.setX (limit);
}
}
if (minOffBottom > 0)
{
const int limit = limits.getBottom() - jmin (minOffBottom, bounds.getHeight());
if (bounds.getY() > limit)
{
if (isStretchingBottom)
bounds.setBottom (limits.getBottom());
else
bounds.setY (limit);
}
}
if (minOffRight > 0)
{
const int limit = limits.getRight() - jmin (minOffRight, bounds.getWidth());
if (bounds.getX() > limit)
{
if (isStretchingRight)
bounds.setRight (limits.getRight());
else
bounds.setX (limit);
}
}
// constrain the aspect ratio if one has been specified..
if (aspectRatio > 0.0)
{
bool adjustWidth;
if ((isStretchingTop || isStretchingBottom) && ! (isStretchingLeft || isStretchingRight))
{
adjustWidth = true;
}
else if ((isStretchingLeft || isStretchingRight) && ! (isStretchingTop || isStretchingBottom))
{
adjustWidth = false;
}
else
{
const double oldRatio = (old.getHeight() > 0) ? std::abs (old.getWidth() / (double) old.getHeight()) : 0.0;
const double newRatio = std::abs (bounds.getWidth() / (double) bounds.getHeight());
adjustWidth = (oldRatio > newRatio);
}
if (adjustWidth)
{
bounds.setWidth (roundToInt (bounds.getHeight() * aspectRatio));
if (bounds.getWidth() > maxW || bounds.getWidth() < minW)
{
bounds.setWidth (jlimit (minW, maxW, bounds.getWidth()));
bounds.setHeight (roundToInt (bounds.getWidth() / aspectRatio));
}
}
else
{
bounds.setHeight (roundToInt (bounds.getWidth() / aspectRatio));
if (bounds.getHeight() > maxH || bounds.getHeight() < minH)
{
bounds.setHeight (jlimit (minH, maxH, bounds.getHeight()));
bounds.setWidth (roundToInt (bounds.getHeight() * aspectRatio));
}
}
if ((isStretchingTop || isStretchingBottom) && ! (isStretchingLeft || isStretchingRight))
{
bounds.setX (old.getX() + (old.getWidth() - bounds.getWidth()) / 2);
}
else if ((isStretchingLeft || isStretchingRight) && ! (isStretchingTop || isStretchingBottom))
{
bounds.setY (old.getY() + (old.getHeight() - bounds.getHeight()) / 2);
}
else
{
if (isStretchingLeft)
bounds.setX (old.getRight() - bounds.getWidth());
if (isStretchingTop)
bounds.setY (old.getBottom() - bounds.getHeight());
}
}
jassert (! bounds.isEmpty());
}
} // namespace juce