/*
==============================================================================
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
{
static uint32 lastUniquePeerID = 1;
//==============================================================================
ComponentPeer::ComponentPeer (Component& comp, int flags)
: component (comp),
styleFlags (flags),
uniqueID (lastUniquePeerID += 2) // increment by 2 so that this can never hit 0
{
Desktop::getInstance().peers.add (this);
}
ComponentPeer::~ComponentPeer()
{
auto& desktop = Desktop::getInstance();
desktop.peers.removeFirstMatchingValue (this);
desktop.triggerFocusCallback();
}
//==============================================================================
int ComponentPeer::getNumPeers() noexcept
{
return Desktop::getInstance().peers.size();
}
ComponentPeer* ComponentPeer::getPeer (const int index) noexcept
{
return Desktop::getInstance().peers [index];
}
ComponentPeer* ComponentPeer::getPeerFor (const Component* const component) noexcept
{
for (auto* peer : Desktop::getInstance().peers)
if (&(peer->getComponent()) == component)
return peer;
return nullptr;
}
bool ComponentPeer::isValidPeer (const ComponentPeer* const peer) noexcept
{
return Desktop::getInstance().peers.contains (const_cast<ComponentPeer*> (peer));
}
void ComponentPeer::updateBounds()
{
setBounds (ScalingHelpers::scaledScreenPosToUnscaled (component, component.getBoundsInParent()), false);
}
bool ComponentPeer::isKioskMode() const
{
return Desktop::getInstance().getKioskModeComponent() == &component;
}
//==============================================================================
void ComponentPeer::handleMouseEvent (MouseInputSource::InputSourceType type, Point<float> pos, ModifierKeys newMods,
float newPressure, float newOrientation, int64 time, PenDetails pen, int touchIndex)
{
if (auto* mouse = Desktop::getInstance().mouseSources->getOrCreateMouseInputSource (type, touchIndex))
MouseInputSource (*mouse).handleEvent (*this, pos, time, newMods, newPressure, newOrientation, pen);
}
void ComponentPeer::handleMouseWheel (MouseInputSource::InputSourceType type, Point<float> pos, int64 time, const MouseWheelDetails& wheel, int touchIndex)
{
if (auto* mouse = Desktop::getInstance().mouseSources->getOrCreateMouseInputSource (type, touchIndex))
MouseInputSource (*mouse).handleWheel (*this, pos, time, wheel);
}
void ComponentPeer::handleMagnifyGesture (MouseInputSource::InputSourceType type, Point<float> pos, int64 time, float scaleFactor, int touchIndex)
{
if (auto* mouse = Desktop::getInstance().mouseSources->getOrCreateMouseInputSource (type, touchIndex))
MouseInputSource (*mouse).handleMagnifyGesture (*this, pos, time, scaleFactor);
}
//==============================================================================
void ComponentPeer::handlePaint (LowLevelGraphicsContext& contextToPaintTo)
{
Graphics g (contextToPaintTo);
if (component.isTransformed())
g.addTransform (component.getTransform());
auto peerBounds = getBounds();
auto componentBounds = component.getLocalBounds();
if (component.isTransformed())
componentBounds = componentBounds.transformedBy (component.getTransform());
if (peerBounds.getWidth() != componentBounds.getWidth() || peerBounds.getHeight() != componentBounds.getHeight())
// Tweak the scaling so that the component's integer size exactly aligns with the peer's scaled size
g.addTransform (AffineTransform::scale ((float) peerBounds.getWidth() / (float) componentBounds.getWidth(),
(float) peerBounds.getHeight() / (float) componentBounds.getHeight()));
#if JUCE_ENABLE_REPAINT_DEBUGGING
#ifdef JUCE_IS_REPAINT_DEBUGGING_ACTIVE
if (JUCE_IS_REPAINT_DEBUGGING_ACTIVE)
#endif
{
g.saveState();
}
#endif
JUCE_TRY
{
component.paintEntireComponent (g, true);
}
JUCE_CATCH_EXCEPTION
#if JUCE_ENABLE_REPAINT_DEBUGGING
#ifdef JUCE_IS_REPAINT_DEBUGGING_ACTIVE
if (JUCE_IS_REPAINT_DEBUGGING_ACTIVE)
#endif
{
// enabling this code will fill all areas that get repainted with a colour overlay, to show
// clearly when things are being repainted.
g.restoreState();
static Random rng;
g.fillAll (Colour ((uint8) rng.nextInt (255),
(uint8) rng.nextInt (255),
(uint8) rng.nextInt (255),
(uint8) 0x50));
}
#endif
/** If this fails, it's probably be because your CPU floating-point precision mode has
been set to low.. This setting is sometimes changed by things like Direct3D, and can
mess up a lot of the calculations that the library needs to do.
*/
jassert (roundToInt (10.1f) == 10);
}
Component* ComponentPeer::getTargetForKeyPress()
{
auto* c = Component::getCurrentlyFocusedComponent();
if (c == nullptr)
c = &component;
if (c->isCurrentlyBlockedByAnotherModalComponent())
if (auto* currentModalComp = Component::getCurrentlyModalComponent())
c = currentModalComp;
return c;
}
bool ComponentPeer::handleKeyPress (const int keyCode, const juce_wchar textCharacter)
{
return handleKeyPress (KeyPress (keyCode,
ModifierKeys::currentModifiers.withoutMouseButtons(),
textCharacter));
}
bool ComponentPeer::handleKeyPress (const KeyPress& keyInfo)
{
bool keyWasUsed = false;
for (auto* target = getTargetForKeyPress(); target != nullptr; target = target->getParentComponent())
{
const WeakReference<Component> deletionChecker (target);
if (auto* keyListeners = target->keyListeners.get())
{
for (int i = keyListeners->size(); --i >= 0;)
{
keyWasUsed = keyListeners->getUnchecked (i)->keyPressed (keyInfo, target);
if (keyWasUsed || deletionChecker == nullptr)
return keyWasUsed;
i = jmin (i, keyListeners->size());
}
}
keyWasUsed = target->keyPressed (keyInfo);
if (keyWasUsed || deletionChecker == nullptr)
break;
}
if (! keyWasUsed && keyInfo.isKeyCode (KeyPress::tabKey))
{
if (auto* currentlyFocused = Component::getCurrentlyFocusedComponent())
{
currentlyFocused->moveKeyboardFocusToSibling (! keyInfo.getModifiers().isShiftDown());
return true;
}
}
return keyWasUsed;
}
bool ComponentPeer::handleKeyUpOrDown (const bool isKeyDown)
{
bool keyWasUsed = false;
for (auto* target = getTargetForKeyPress(); target != nullptr; target = target->getParentComponent())
{
const WeakReference<Component> deletionChecker (target);
keyWasUsed = target->keyStateChanged (isKeyDown);
if (keyWasUsed || deletionChecker == nullptr)
break;
if (auto* keyListeners = target->keyListeners.get())
{
for (int i = keyListeners->size(); --i >= 0;)
{
keyWasUsed = keyListeners->getUnchecked (i)->keyStateChanged (isKeyDown, target);
if (keyWasUsed || deletionChecker == nullptr)
return keyWasUsed;
i = jmin (i, keyListeners->size());
}
}
}
return keyWasUsed;
}
void ComponentPeer::handleModifierKeysChange()
{
auto* target = Desktop::getInstance().getMainMouseSource().getComponentUnderMouse();
if (target == nullptr)
target = Component::getCurrentlyFocusedComponent();
if (target == nullptr)
target = &component;
target->internalModifierKeysChanged();
}
TextInputTarget* ComponentPeer::findCurrentTextInputTarget()
{
auto* c = Component::getCurrentlyFocusedComponent();
if (c == &component || component.isParentOf (c))
if (auto* ti = dynamic_cast<TextInputTarget*> (c))
if (ti->isTextInputActive())
return ti;
return nullptr;
}
void ComponentPeer::dismissPendingTextInput() {}
//==============================================================================
void ComponentPeer::handleBroughtToFront()
{
component.internalBroughtToFront();
}
void ComponentPeer::setConstrainer (ComponentBoundsConstrainer* const newConstrainer) noexcept
{
constrainer = newConstrainer;
}
void ComponentPeer::handleMovedOrResized()
{
const bool nowMinimised = isMinimised();
if (component.flags.hasHeavyweightPeerFlag && ! nowMinimised)
{
const WeakReference<Component> deletionChecker (&component);
auto newBounds = Component::ComponentHelpers::rawPeerPositionToLocal (component, getBounds());
auto oldBounds = component.getBounds();
const bool wasMoved = (oldBounds.getPosition() != newBounds.getPosition());
const bool wasResized = (oldBounds.getWidth() != newBounds.getWidth() || oldBounds.getHeight() != newBounds.getHeight());
if (wasMoved || wasResized)
{
component.boundsRelativeToParent = newBounds;
if (wasResized)
component.repaint();
component.sendMovedResizedMessages (wasMoved, wasResized);
if (deletionChecker == nullptr)
return;
}
}
if (isWindowMinimised != nowMinimised)
{
isWindowMinimised = nowMinimised;
component.minimisationStateChanged (nowMinimised);
component.sendVisibilityChangeMessage();
}
const auto windowInSpecialState = isFullScreen() || isKioskMode() || nowMinimised;
if (! windowInSpecialState)
lastNonFullscreenBounds = component.getBounds();
}
void ComponentPeer::handleFocusGain()
{
if (component.isParentOf (lastFocusedComponent)
&& lastFocusedComponent->isShowing()
&& lastFocusedComponent->getWantsKeyboardFocus())
{
Component::currentlyFocusedComponent = lastFocusedComponent;
Desktop::getInstance().triggerFocusCallback();
lastFocusedComponent->internalKeyboardFocusGain (Component::focusChangedDirectly);
}
else
{
if (! component.isCurrentlyBlockedByAnotherModalComponent())
component.grabKeyboardFocus();
else
ModalComponentManager::getInstance()->bringModalComponentsToFront();
}
}
void ComponentPeer::handleFocusLoss()
{
if (component.hasKeyboardFocus (true))
{
lastFocusedComponent = Component::currentlyFocusedComponent;
if (lastFocusedComponent != nullptr)
{
Component::currentlyFocusedComponent = nullptr;
Desktop::getInstance().triggerFocusCallback();
lastFocusedComponent->internalKeyboardFocusLoss (Component::focusChangedByMouseClick);
}
}
}
Component* ComponentPeer::getLastFocusedSubcomponent() const noexcept
{
return (component.isParentOf (lastFocusedComponent) && lastFocusedComponent->isShowing())
? static_cast<Component*> (lastFocusedComponent)
: &component;
}
void ComponentPeer::handleScreenSizeChange()
{
component.parentSizeChanged();
handleMovedOrResized();
}
void ComponentPeer::setNonFullScreenBounds (const Rectangle<int>& newBounds) noexcept
{
lastNonFullscreenBounds = newBounds;
}
const Rectangle<int>& ComponentPeer::getNonFullScreenBounds() const noexcept
{
return lastNonFullscreenBounds;
}
Point<int> ComponentPeer::localToGlobal (Point<int> p) { return localToGlobal (p.toFloat()).roundToInt(); }
Point<int> ComponentPeer::globalToLocal (Point<int> p) { return globalToLocal (p.toFloat()).roundToInt(); }
Rectangle<int> ComponentPeer::localToGlobal (const Rectangle<int>& relativePosition)
{
return relativePosition.withPosition (localToGlobal (relativePosition.getPosition()));
}
Rectangle<int> ComponentPeer::globalToLocal (const Rectangle<int>& screenPosition)
{
return screenPosition.withPosition (globalToLocal (screenPosition.getPosition()));
}
Rectangle<float> ComponentPeer::localToGlobal (const Rectangle<float>& relativePosition)
{
return relativePosition.withPosition (localToGlobal (relativePosition.getPosition()));
}
Rectangle<float> ComponentPeer::globalToLocal (const Rectangle<float>& screenPosition)
{
return screenPosition.withPosition (globalToLocal (screenPosition.getPosition()));
}
Rectangle<int> ComponentPeer::getAreaCoveredBy (const Component& subComponent) const
{
return ScalingHelpers::scaledScreenPosToUnscaled
(component, component.getLocalArea (&subComponent, subComponent.getLocalBounds()));
}
//==============================================================================
namespace DragHelpers
{
static bool isFileDrag (const ComponentPeer::DragInfo& info)
{
return ! info.files.isEmpty();
}
static bool isSuitableTarget (const ComponentPeer::DragInfo& info, Component* target)
{
return isFileDrag (info) ? dynamic_cast<FileDragAndDropTarget*> (target) != nullptr
: dynamic_cast<TextDragAndDropTarget*> (target) != nullptr;
}
static bool isInterested (const ComponentPeer::DragInfo& info, Component* target)
{
return isFileDrag (info) ? dynamic_cast<FileDragAndDropTarget*> (target)->isInterestedInFileDrag (info.files)
: dynamic_cast<TextDragAndDropTarget*> (target)->isInterestedInTextDrag (info.text);
}
static Component* findDragAndDropTarget (Component* c, const ComponentPeer::DragInfo& info, Component* lastOne)
{
for (; c != nullptr; c = c->getParentComponent())
if (isSuitableTarget (info, c) && (c == lastOne || isInterested (info, c)))
return c;
return nullptr;
}
}
bool ComponentPeer::handleDragMove (const ComponentPeer::DragInfo& info)
{
auto* compUnderMouse = component.getComponentAt (info.position);
auto* lastTarget = dragAndDropTargetComponent.get();
Component* newTarget = nullptr;
if (compUnderMouse != lastDragAndDropCompUnderMouse)
{
lastDragAndDropCompUnderMouse = compUnderMouse;
newTarget = DragHelpers::findDragAndDropTarget (compUnderMouse, info, lastTarget);
if (newTarget != lastTarget)
{
if (lastTarget != nullptr)
{
if (DragHelpers::isFileDrag (info))
dynamic_cast<FileDragAndDropTarget*> (lastTarget)->fileDragExit (info.files);
else
dynamic_cast<TextDragAndDropTarget*> (lastTarget)->textDragExit (info.text);
}
dragAndDropTargetComponent = nullptr;
if (DragHelpers::isSuitableTarget (info, newTarget))
{
dragAndDropTargetComponent = newTarget;
auto pos = newTarget->getLocalPoint (&component, info.position);
if (DragHelpers::isFileDrag (info))
dynamic_cast<FileDragAndDropTarget*> (newTarget)->fileDragEnter (info.files, pos.x, pos.y);
else
dynamic_cast<TextDragAndDropTarget*> (newTarget)->textDragEnter (info.text, pos.x, pos.y);
}
}
}
else
{
newTarget = lastTarget;
}
if (! DragHelpers::isSuitableTarget (info, newTarget))
return false;
auto pos = newTarget->getLocalPoint (&component, info.position);
if (DragHelpers::isFileDrag (info))
dynamic_cast<FileDragAndDropTarget*> (newTarget)->fileDragMove (info.files, pos.x, pos.y);
else
dynamic_cast<TextDragAndDropTarget*> (newTarget)->textDragMove (info.text, pos.x, pos.y);
return true;
}
bool ComponentPeer::handleDragExit (const ComponentPeer::DragInfo& info)
{
DragInfo info2 (info);
info2.position.setXY (-1, -1);
const bool used = handleDragMove (info2);
jassert (dragAndDropTargetComponent == nullptr);
lastDragAndDropCompUnderMouse = nullptr;
return used;
}
bool ComponentPeer::handleDragDrop (const ComponentPeer::DragInfo& info)
{
handleDragMove (info);
if (WeakReference<Component> targetComp = dragAndDropTargetComponent)
{
dragAndDropTargetComponent = nullptr;
lastDragAndDropCompUnderMouse = nullptr;
if (DragHelpers::isSuitableTarget (info, targetComp))
{
if (targetComp->isCurrentlyBlockedByAnotherModalComponent())
{
targetComp->internalModalInputAttempt();
if (targetComp->isCurrentlyBlockedByAnotherModalComponent())
return true;
}
ComponentPeer::DragInfo infoCopy (info);
infoCopy.position = targetComp->getLocalPoint (&component, info.position);
// We'll use an async message to deliver the drop, because if the target decides
// to run a modal loop, it can gum-up the operating system..
MessageManager::callAsync ([=]
{
if (auto* c = targetComp.get())
{
if (DragHelpers::isFileDrag (info))
dynamic_cast<FileDragAndDropTarget*> (c)->filesDropped (infoCopy.files, infoCopy.position.x, infoCopy.position.y);
else
dynamic_cast<TextDragAndDropTarget*> (c)->textDropped (infoCopy.text, infoCopy.position.x, infoCopy.position.y);
}
});
return true;
}
}
return false;
}
//==============================================================================
void ComponentPeer::handleUserClosingWindow()
{
component.userTriedToCloseWindow();
}
bool ComponentPeer::setDocumentEditedStatus (bool)
{
return false;
}
void ComponentPeer::setRepresentedFile (const File&)
{
}
//==============================================================================
int ComponentPeer::getCurrentRenderingEngine() const { return 0; }
void ComponentPeer::setCurrentRenderingEngine (int index) { jassert (index == 0); ignoreUnused (index); }
//==============================================================================
std::function<ModifierKeys()> ComponentPeer::getNativeRealtimeModifiers = nullptr;
ModifierKeys ComponentPeer::getCurrentModifiersRealtime() noexcept
{
if (getNativeRealtimeModifiers != nullptr)
return getNativeRealtimeModifiers();
return ModifierKeys::currentModifiers;
}
//==============================================================================
void ComponentPeer::forceDisplayUpdate()
{
Desktop::getInstance().displays->refresh();
}
} // namespace juce