juicysfplugin/modules/juce_gui_basics/widgets/juce_TableHeaderComponent.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
{
class TableHeaderComponent::DragOverlayComp : public Component
{
public:
DragOverlayComp (const Image& i) : image (i)
{
image.duplicateIfShared();
image.multiplyAllAlphas (0.8f);
setAlwaysOnTop (true);
}
void paint (Graphics& g) override
{
g.drawImageAt (image, 0, 0);
}
Image image;
JUCE_DECLARE_NON_COPYABLE (DragOverlayComp)
};
//==============================================================================
TableHeaderComponent::TableHeaderComponent()
{
}
TableHeaderComponent::~TableHeaderComponent()
{
dragOverlayComp.reset();
}
//==============================================================================
void TableHeaderComponent::setPopupMenuActive (bool hasMenu)
{
menuActive = hasMenu;
}
bool TableHeaderComponent::isPopupMenuActive() const { return menuActive; }
//==============================================================================
int TableHeaderComponent::getNumColumns (const bool onlyCountVisibleColumns) const
{
if (onlyCountVisibleColumns)
{
int num = 0;
for (auto* c : columns)
if (c->isVisible())
++num;
return num;
}
return columns.size();
}
String TableHeaderComponent::getColumnName (const int columnId) const
{
if (auto* ci = getInfoForId (columnId))
return ci->name;
return {};
}
void TableHeaderComponent::setColumnName (const int columnId, const String& newName)
{
if (auto* ci = getInfoForId (columnId))
{
if (ci->name != newName)
{
ci->name = newName;
sendColumnsChanged();
}
}
}
void TableHeaderComponent::addColumn (const String& columnName,
int columnId,
int width,
int minimumWidth,
int maximumWidth,
int propertyFlags,
int insertIndex)
{
// can't have a duplicate or zero ID!
jassert (columnId != 0 && getIndexOfColumnId (columnId, false) < 0);
jassert (width > 0);
auto ci = new ColumnInfo();
ci->name = columnName;
ci->id = columnId;
ci->width = width;
ci->lastDeliberateWidth = width;
ci->minimumWidth = minimumWidth;
ci->maximumWidth = maximumWidth >= 0 ? maximumWidth : std::numeric_limits<int>::max();
jassert (ci->maximumWidth >= ci->minimumWidth);
ci->propertyFlags = propertyFlags;
columns.insert (insertIndex, ci);
sendColumnsChanged();
}
void TableHeaderComponent::removeColumn (const int columnIdToRemove)
{
auto index = getIndexOfColumnId (columnIdToRemove, false);
if (index >= 0)
{
columns.remove (index);
sortChanged = true;
sendColumnsChanged();
}
}
void TableHeaderComponent::removeAllColumns()
{
if (columns.size() > 0)
{
columns.clear();
sendColumnsChanged();
}
}
void TableHeaderComponent::moveColumn (const int columnId, int newIndex)
{
auto currentIndex = getIndexOfColumnId (columnId, false);
newIndex = visibleIndexToTotalIndex (newIndex);
if (columns[currentIndex] != nullptr && currentIndex != newIndex)
{
columns.move (currentIndex, newIndex);
sendColumnsChanged();
}
}
int TableHeaderComponent::getColumnWidth (const int columnId) const
{
if (auto* ci = getInfoForId (columnId))
return ci->width;
return 0;
}
void TableHeaderComponent::setColumnWidth (const int columnId, const int newWidth)
{
if (auto* ci = getInfoForId (columnId))
{
if (ci->width != newWidth)
{
auto numColumns = getNumColumns (true);
ci->lastDeliberateWidth = ci->width
= jlimit (ci->minimumWidth, ci->maximumWidth, newWidth);
if (stretchToFit)
{
auto index = getIndexOfColumnId (columnId, true) + 1;
if (isPositiveAndBelow (index, numColumns))
{
auto x = getColumnPosition (index).getX();
if (lastDeliberateWidth == 0)
lastDeliberateWidth = getTotalWidth();
resizeColumnsToFit (visibleIndexToTotalIndex (index), lastDeliberateWidth - x);
}
}
repaint();
columnsResized = true;
triggerAsyncUpdate();
}
}
}
//==============================================================================
int TableHeaderComponent::getIndexOfColumnId (const int columnId, const bool onlyCountVisibleColumns) const
{
int n = 0;
for (auto* c : columns)
{
if ((! onlyCountVisibleColumns) || c->isVisible())
{
if (c->id == columnId)
return n;
++n;
}
}
return -1;
}
int TableHeaderComponent::getColumnIdOfIndex (int index, const bool onlyCountVisibleColumns) const
{
if (onlyCountVisibleColumns)
index = visibleIndexToTotalIndex (index);
if (auto* ci = columns [index])
return ci->id;
return 0;
}
Rectangle<int> TableHeaderComponent::getColumnPosition (const int index) const
{
int x = 0, width = 0, n = 0;
for (auto* c : columns)
{
x += width;
if (c->isVisible())
{
width = c->width;
if (n++ == index)
break;
}
else
{
width = 0;
}
}
return { x, 0, width, getHeight() };
}
int TableHeaderComponent::getColumnIdAtX (const int xToFind) const
{
if (xToFind >= 0)
{
int x = 0;
for (auto* ci : columns)
{
if (ci->isVisible())
{
x += ci->width;
if (xToFind < x)
return ci->id;
}
}
}
return 0;
}
int TableHeaderComponent::getTotalWidth() const
{
int w = 0;
for (auto* c : columns)
if (c->isVisible())
w += c->width;
return w;
}
void TableHeaderComponent::setStretchToFitActive (const bool shouldStretchToFit)
{
stretchToFit = shouldStretchToFit;
lastDeliberateWidth = getTotalWidth();
resized();
}
bool TableHeaderComponent::isStretchToFitActive() const
{
return stretchToFit;
}
void TableHeaderComponent::resizeAllColumnsToFit (int targetTotalWidth)
{
if (stretchToFit && getWidth() > 0
&& columnIdBeingResized == 0 && columnIdBeingDragged == 0)
{
lastDeliberateWidth = targetTotalWidth;
resizeColumnsToFit (0, targetTotalWidth);
}
}
void TableHeaderComponent::resizeColumnsToFit (int firstColumnIndex, int targetTotalWidth)
{
targetTotalWidth = jmax (targetTotalWidth, 0);
StretchableObjectResizer sor;
for (int i = firstColumnIndex; i < columns.size(); ++i)
{
auto* ci = columns.getUnchecked(i);
if (ci->isVisible())
sor.addItem (ci->lastDeliberateWidth, ci->minimumWidth, ci->maximumWidth);
}
sor.resizeToFit (targetTotalWidth);
int visIndex = 0;
for (int i = firstColumnIndex; i < columns.size(); ++i)
{
auto* ci = columns.getUnchecked(i);
if (ci->isVisible())
{
auto newWidth = jlimit (ci->minimumWidth, ci->maximumWidth,
(int) std::floor (sor.getItemSize (visIndex++)));
if (newWidth != ci->width)
{
ci->width = newWidth;
repaint();
columnsResized = true;
triggerAsyncUpdate();
}
}
}
}
void TableHeaderComponent::setColumnVisible (const int columnId, const bool shouldBeVisible)
{
if (auto* ci = getInfoForId (columnId))
{
if (shouldBeVisible != ci->isVisible())
{
if (shouldBeVisible)
ci->propertyFlags |= visible;
else
ci->propertyFlags &= ~visible;
sendColumnsChanged();
resized();
}
}
}
bool TableHeaderComponent::isColumnVisible (const int columnId) const
{
if (auto* ci = getInfoForId (columnId))
return ci->isVisible();
return false;
}
//==============================================================================
void TableHeaderComponent::setSortColumnId (const int columnId, const bool sortForwards)
{
if (getSortColumnId() != columnId || isSortedForwards() != sortForwards)
{
for (auto* c : columns)
c->propertyFlags &= ~(sortedForwards | sortedBackwards);
if (auto* ci = getInfoForId (columnId))
ci->propertyFlags |= (sortForwards ? sortedForwards : sortedBackwards);
reSortTable();
}
}
int TableHeaderComponent::getSortColumnId() const
{
for (auto* c : columns)
if ((c->propertyFlags & (sortedForwards | sortedBackwards)) != 0)
return c->id;
return 0;
}
bool TableHeaderComponent::isSortedForwards() const
{
for (auto* c : columns)
if ((c->propertyFlags & (sortedForwards | sortedBackwards)) != 0)
return (c->propertyFlags & sortedForwards) != 0;
return true;
}
void TableHeaderComponent::reSortTable()
{
sortChanged = true;
repaint();
triggerAsyncUpdate();
}
//==============================================================================
String TableHeaderComponent::toString() const
{
String s;
XmlElement doc ("TABLELAYOUT");
doc.setAttribute ("sortedCol", getSortColumnId());
doc.setAttribute ("sortForwards", isSortedForwards());
for (auto* ci : columns)
{
auto* e = doc.createNewChildElement ("COLUMN");
e->setAttribute ("id", ci->id);
e->setAttribute ("visible", ci->isVisible());
e->setAttribute ("width", ci->width);
}
return doc.createDocument ({}, true, false);
}
void TableHeaderComponent::restoreFromString (const String& storedVersion)
{
if (auto storedXML = parseXML (storedVersion))
{
if (storedXML->hasTagName ("TABLELAYOUT"))
{
int index = 0;
forEachXmlChildElement (*storedXML, col)
{
auto tabId = col->getIntAttribute ("id");
if (auto* ci = getInfoForId (tabId))
{
columns.move (columns.indexOf (ci), index);
ci->width = col->getIntAttribute ("width");
setColumnVisible (tabId, col->getBoolAttribute ("visible"));
}
++index;
}
columnsResized = true;
sendColumnsChanged();
setSortColumnId (storedXML->getIntAttribute ("sortedCol"),
storedXML->getBoolAttribute ("sortForwards", true));
}
}
}
//==============================================================================
void TableHeaderComponent::addListener (Listener* newListener)
{
listeners.addIfNotAlreadyThere (newListener);
}
void TableHeaderComponent::removeListener (Listener* listenerToRemove)
{
listeners.removeFirstMatchingValue (listenerToRemove);
}
//==============================================================================
void TableHeaderComponent::columnClicked (int columnId, const ModifierKeys& mods)
{
if (auto* ci = getInfoForId (columnId))
if ((ci->propertyFlags & sortable) != 0 && ! mods.isPopupMenu())
setSortColumnId (columnId, (ci->propertyFlags & sortedForwards) == 0);
}
void TableHeaderComponent::addMenuItems (PopupMenu& menu, const int /*columnIdClicked*/)
{
for (auto* ci : columns)
if ((ci->propertyFlags & appearsOnColumnMenu) != 0)
menu.addItem (ci->id, ci->name,
(ci->propertyFlags & (sortedForwards | sortedBackwards)) == 0,
isColumnVisible (ci->id));
}
void TableHeaderComponent::reactToMenuItem (const int menuReturnId, const int /*columnIdClicked*/)
{
if (getIndexOfColumnId (menuReturnId, false) >= 0)
setColumnVisible (menuReturnId, ! isColumnVisible (menuReturnId));
}
void TableHeaderComponent::paint (Graphics& g)
{
auto& lf = getLookAndFeel();
lf.drawTableHeaderBackground (g, *this);
auto clip = g.getClipBounds();
int x = 0;
for (auto* ci : columns)
{
if (ci->isVisible())
{
if (x + ci->width > clip.getX()
&& (ci->id != columnIdBeingDragged
|| dragOverlayComp == nullptr
|| ! dragOverlayComp->isVisible()))
{
Graphics::ScopedSaveState ss (g);
g.setOrigin (x, 0);
g.reduceClipRegion (0, 0, ci->width, getHeight());
lf.drawTableHeaderColumn (g, *this, ci->name, ci->id, ci->width, getHeight(),
ci->id == columnIdUnderMouse,
ci->id == columnIdUnderMouse && isMouseButtonDown(),
ci->propertyFlags);
}
x += ci->width;
if (x >= clip.getRight())
break;
}
}
}
void TableHeaderComponent::mouseMove (const MouseEvent& e) { updateColumnUnderMouse (e); }
void TableHeaderComponent::mouseEnter (const MouseEvent& e) { updateColumnUnderMouse (e); }
void TableHeaderComponent::mouseExit (const MouseEvent&) { setColumnUnderMouse (0); }
void TableHeaderComponent::mouseDown (const MouseEvent& e)
{
repaint();
columnIdBeingResized = 0;
columnIdBeingDragged = 0;
if (columnIdUnderMouse != 0)
{
draggingColumnOffset = e.x - getColumnPosition (getIndexOfColumnId (columnIdUnderMouse, true)).getX();
if (e.mods.isPopupMenu())
columnClicked (columnIdUnderMouse, e.mods);
}
if (menuActive && e.mods.isPopupMenu())
showColumnChooserMenu (columnIdUnderMouse);
}
void TableHeaderComponent::mouseDrag (const MouseEvent& e)
{
if (columnIdBeingResized == 0
&& columnIdBeingDragged == 0
&& e.mouseWasDraggedSinceMouseDown()
&& ! e.mods.isPopupMenu())
{
dragOverlayComp.reset();
columnIdBeingResized = getResizeDraggerAt (e.getMouseDownX());
if (columnIdBeingResized != 0)
{
if (auto* ci = getInfoForId (columnIdBeingResized))
initialColumnWidth = ci->width;
else
jassertfalse;
}
else
{
beginDrag (e);
}
}
if (columnIdBeingResized != 0)
{
if (auto* ci = getInfoForId (columnIdBeingResized))
{
auto w = jlimit (ci->minimumWidth, ci->maximumWidth,
initialColumnWidth + e.getDistanceFromDragStartX());
if (stretchToFit)
{
// prevent us dragging a column too far right if we're in stretch-to-fit mode
int minWidthOnRight = 0;
for (int i = getIndexOfColumnId (columnIdBeingResized, false) + 1; i < columns.size(); ++i)
if (columns.getUnchecked (i)->isVisible())
minWidthOnRight += columns.getUnchecked (i)->minimumWidth;
auto currentPos = getColumnPosition (getIndexOfColumnId (columnIdBeingResized, true));
w = jmax (ci->minimumWidth, jmin (w, lastDeliberateWidth - minWidthOnRight - currentPos.getX()));
}
setColumnWidth (columnIdBeingResized, w);
}
}
else if (columnIdBeingDragged != 0)
{
if (e.y >= -50 && e.y < getHeight() + 50)
{
if (dragOverlayComp != nullptr)
{
dragOverlayComp->setVisible (true);
dragOverlayComp->setBounds (jlimit (0,
jmax (0, getTotalWidth() - dragOverlayComp->getWidth()),
e.x - draggingColumnOffset),
0,
dragOverlayComp->getWidth(),
getHeight());
for (int i = columns.size(); --i >= 0;)
{
const int currentIndex = getIndexOfColumnId (columnIdBeingDragged, true);
int newIndex = currentIndex;
if (newIndex > 0)
{
// if the previous column isn't draggable, we can't move our column
// past it, because that'd change the undraggable column's position..
auto* previous = columns.getUnchecked (newIndex - 1);
if ((previous->propertyFlags & draggable) != 0)
{
auto leftOfPrevious = getColumnPosition (newIndex - 1).getX();
auto rightOfCurrent = getColumnPosition (newIndex).getRight();
if (std::abs (dragOverlayComp->getX() - leftOfPrevious)
< std::abs (dragOverlayComp->getRight() - rightOfCurrent))
{
--newIndex;
}
}
}
if (newIndex < columns.size() - 1)
{
// if the next column isn't draggable, we can't move our column
// past it, because that'd change the undraggable column's position..
auto* nextCol = columns.getUnchecked (newIndex + 1);
if ((nextCol->propertyFlags & draggable) != 0)
{
auto leftOfCurrent = getColumnPosition (newIndex).getX();
auto rightOfNext = getColumnPosition (newIndex + 1).getRight();
if (std::abs (dragOverlayComp->getX() - leftOfCurrent)
> std::abs (dragOverlayComp->getRight() - rightOfNext))
{
++newIndex;
}
}
}
if (newIndex != currentIndex)
moveColumn (columnIdBeingDragged, newIndex);
else
break;
}
}
}
else
{
endDrag (draggingColumnOriginalIndex);
}
}
}
void TableHeaderComponent::beginDrag (const MouseEvent& e)
{
if (columnIdBeingDragged == 0)
{
columnIdBeingDragged = getColumnIdAtX (e.getMouseDownX());
auto* ci = getInfoForId (columnIdBeingDragged);
if (ci == nullptr || (ci->propertyFlags & draggable) == 0)
{
columnIdBeingDragged = 0;
}
else
{
draggingColumnOriginalIndex = getIndexOfColumnId (columnIdBeingDragged, true);
auto columnRect = getColumnPosition (draggingColumnOriginalIndex);
auto temp = columnIdBeingDragged;
columnIdBeingDragged = 0;
dragOverlayComp.reset (new DragOverlayComp (createComponentSnapshot (columnRect, false)));
addAndMakeVisible (dragOverlayComp.get());
columnIdBeingDragged = temp;
dragOverlayComp->setBounds (columnRect);
for (int i = listeners.size(); --i >= 0;)
{
listeners.getUnchecked(i)->tableColumnDraggingChanged (this, columnIdBeingDragged);
i = jmin (i, listeners.size() - 1);
}
}
}
}
void TableHeaderComponent::endDrag (const int finalIndex)
{
if (columnIdBeingDragged != 0)
{
moveColumn (columnIdBeingDragged, finalIndex);
columnIdBeingDragged = 0;
repaint();
for (int i = listeners.size(); --i >= 0;)
{
listeners.getUnchecked(i)->tableColumnDraggingChanged (this, 0);
i = jmin (i, listeners.size() - 1);
}
}
}
void TableHeaderComponent::mouseUp (const MouseEvent& e)
{
mouseDrag (e);
for (auto* c : columns)
if (c->isVisible())
c->lastDeliberateWidth = c->width;
columnIdBeingResized = 0;
repaint();
endDrag (getIndexOfColumnId (columnIdBeingDragged, true));
updateColumnUnderMouse (e);
if (columnIdUnderMouse != 0 && ! (e.mouseWasDraggedSinceMouseDown() || e.mods.isPopupMenu()))
columnClicked (columnIdUnderMouse, e.mods);
dragOverlayComp.reset();
}
MouseCursor TableHeaderComponent::getMouseCursor()
{
if (columnIdBeingResized != 0 || (getResizeDraggerAt (getMouseXYRelative().getX()) != 0 && ! isMouseButtonDown()))
return MouseCursor (MouseCursor::LeftRightResizeCursor);
return Component::getMouseCursor();
}
//==============================================================================
bool TableHeaderComponent::ColumnInfo::isVisible() const
{
return (propertyFlags & TableHeaderComponent::visible) != 0;
}
TableHeaderComponent::ColumnInfo* TableHeaderComponent::getInfoForId (int id) const
{
for (auto* c : columns)
if (c->id == id)
return c;
return nullptr;
}
int TableHeaderComponent::visibleIndexToTotalIndex (const int visibleIndex) const
{
int n = 0;
for (int i = 0; i < columns.size(); ++i)
{
if (columns.getUnchecked(i)->isVisible())
{
if (n == visibleIndex)
return i;
++n;
}
}
return -1;
}
void TableHeaderComponent::sendColumnsChanged()
{
if (stretchToFit && lastDeliberateWidth > 0)
resizeAllColumnsToFit (lastDeliberateWidth);
repaint();
columnsChanged = true;
triggerAsyncUpdate();
}
void TableHeaderComponent::handleAsyncUpdate()
{
const bool changed = columnsChanged || sortChanged;
const bool sized = columnsResized || changed;
const bool sorted = sortChanged;
columnsChanged = false;
columnsResized = false;
sortChanged = false;
if (sorted)
{
for (int i = listeners.size(); --i >= 0;)
{
listeners.getUnchecked(i)->tableSortOrderChanged (this);
i = jmin (i, listeners.size() - 1);
}
}
if (changed)
{
for (int i = listeners.size(); --i >= 0;)
{
listeners.getUnchecked(i)->tableColumnsChanged (this);
i = jmin (i, listeners.size() - 1);
}
}
if (sized)
{
for (int i = listeners.size(); --i >= 0;)
{
listeners.getUnchecked(i)->tableColumnsResized (this);
i = jmin (i, listeners.size() - 1);
}
}
}
int TableHeaderComponent::getResizeDraggerAt (const int mouseX) const
{
if (isPositiveAndBelow (mouseX, getWidth()))
{
const int draggableDistance = 3;
int x = 0;
for (auto* ci : columns)
{
if (ci->isVisible())
{
if (std::abs (mouseX - (x + ci->width)) <= draggableDistance
&& (ci->propertyFlags & resizable) != 0)
return ci->id;
x += ci->width;
}
}
}
return 0;
}
void TableHeaderComponent::setColumnUnderMouse (const int newCol)
{
if (newCol != columnIdUnderMouse)
{
columnIdUnderMouse = newCol;
repaint();
}
}
void TableHeaderComponent::updateColumnUnderMouse (const MouseEvent& e)
{
setColumnUnderMouse (reallyContains (e.getPosition(), true) && getResizeDraggerAt (e.x) == 0
? getColumnIdAtX (e.x) : 0);
}
static void tableHeaderMenuCallback (int result, TableHeaderComponent* tableHeader, int columnIdClicked)
{
if (tableHeader != nullptr && result != 0)
tableHeader->reactToMenuItem (result, columnIdClicked);
}
void TableHeaderComponent::showColumnChooserMenu (const int columnIdClicked)
{
PopupMenu m;
addMenuItems (m, columnIdClicked);
if (m.getNumItems() > 0)
{
m.setLookAndFeel (&getLookAndFeel());
m.showMenuAsync (PopupMenu::Options(),
ModalCallbackFunction::forComponent (tableHeaderMenuCallback, this, columnIdClicked));
}
}
void TableHeaderComponent::Listener::tableColumnDraggingChanged (TableHeaderComponent*, int)
{
}
} // namespace juce