basket/src/kcolorcombo2.cpp

/***************************************************************************
 *   Copyright (C) 2005 by S<>astien Laot                                 *
 *   slaout@linux62.org                                                    *
 *                                                                         *
 *   This program is free software; you can redistribute it and/or modify  *
 *   it under the terms of the GNU General Public License as published by  *
 *   the Free Software Foundation; either version 2 of the License, or     *
 *   (at your option) any later version.                                   *
 *                                                                         *
 *   This program 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.                          *
 *                                                                         *
 *   You should have received a copy of the GNU General Public License     *
 *   along with this program; if not, write to the                         *
 *   Free Software Foundation, Inc.,                                       *
 *   51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.             *
 ***************************************************************************/

#include <tqapplication.h>
#include <tqpixmap.h>
#include <tqbitmap.h>
#include <tqpainter.h>
#include <tqlistbox.h>
#include <tdeglobalsettings.h>
#include <tdelocale.h>
#include <kcolordialog.h>
#include <tqclipboard.h>
#include <tdestdaccel.h>
#include <kcolordrag.h>

#include "kcolorcombo2.h"

//#include "tqeffects.h"

//#define DEBUG_COLOR_ARRAY
//#define OUTPUT_GIMP_PALETTE

#ifdef DEBUG_COLOR_ARRAY
  #include <iostream>
  #include <iomanip>
#endif
#ifdef OUTPUT_GIMP_PALETTE
  #include <iostream>
  #include <iomanip>
#endif

/** class KColorPopup: */

const int KColorPopup::MARGIN      = 1;
const int KColorPopup::FRAME_WIDTH = 1;


KColorPopup::KColorPopup(KColorCombo2 *parent)
 : TQWidget(/*parent=*/0, /*name=*/0, WType_Popup | WNoAutoErase),
   m_selector(parent)
{
	hide();
	setMouseTracking(true);
	//resize(20, 20);
	//setWFlags(TQt::WNoAutoErase);
}

KColorPopup::~KColorPopup()
{
}

#include <tqcursor.h>

void KColorPopup::relayout() // FIXME: relayout should NOT redraw the pixmap!
{
	int  columnCount = m_selector->columnCount();
	int  rowCount    = m_selector->rowCount();
	int  colorHeight = m_selector->colorRectHeight();
	int  colorWidth  = m_selector->colorRectWidthForHeight(colorHeight);
	bool haveDefault = m_selector->defaultColor().isValid();

	int width  = 2 + MARGIN + (colorWidth  + MARGIN) * columnCount;
	int height = 2 + MARGIN + (colorHeight + MARGIN) * rowCount + (colorHeight + MARGIN);

	resize(width, height);

	// Initialize the pixmap:
	m_pixmap.resize(width, height);
	TQPainter painter(&m_pixmap);
	painter.fillRect(0, 0, width, height, TDEGlobalSettings::baseColor());
	painter.setPen(TDEGlobalSettings::textColor());
	painter.drawRect(0, 0, width, height);

	// Needed to draw:
	int x, y;
	TQRect selectionRect;

	// Draw the color array:
	for (int i = 0; i < columnCount; ++i) {
		for (int j = 0; j < rowCount; ++j) {
			x = 1 + MARGIN + (colorWidth  + MARGIN) * i;
			y = 1 + MARGIN + (colorHeight + MARGIN) * j;
			if (i == m_selectedColumn && j == m_selectedRow) {
				selectionRect = TQRect(x - 2, y - 2, colorWidth + 4, colorHeight + 4);
				painter.fillRect(selectionRect, TDEGlobalSettings::highlightColor());
			}
			m_selector->drawColorRect(painter, x, y, m_selector->colorAt(i, j), /*isDefault=*/false, colorWidth, colorHeight);
		}
	}

	m_columnOther = (haveDefault ? columnCount / 2 : 0); // "(Default)" is allowed, paint "Other..." on the right
	int defaultCellWidth = (colorWidth  + MARGIN) * m_columnOther;
	int otherCellWidth   = (colorWidth  + MARGIN) * (columnCount - m_columnOther);

	// Draw the "(Default)" and "Other..." colors:
	y = height - (colorHeight + MARGIN) - 1;
	TQColor textColor;
	if (m_selector->defaultColor().isValid()) {
		x = 1 + MARGIN;
		if (m_selectedColumn < m_columnOther && rowCount == m_selectedRow) {
			selectionRect = TQRect(x - 2, y - 2, defaultCellWidth, colorHeight + 4);
			painter.fillRect(selectionRect, TDEGlobalSettings::highlightColor());
			textColor = TDEGlobalSettings::highlightedTextColor();
		} else
			textColor = TDEGlobalSettings::textColor();
		m_selector->drawColorRect(painter, x, y, m_selector->defaultColor(), /*isDefault=*/true, colorWidth, colorHeight);
		painter.setFont(m_selector->font());
		painter.setPen(textColor);
		painter.drawText(x + 2 + colorWidth, y, /*width=*/5000, colorHeight, AlignLeft | AlignVCenter | DontClip, i18n("(Default)"));
	}
	x = 1 + MARGIN + m_columnOther * (colorWidth + MARGIN);
	if (m_selectedColumn >= m_columnOther && rowCount == m_selectedRow) {
		selectionRect = TQRect(x - 2, y - 2, otherCellWidth, colorHeight + 4);
		painter.fillRect(selectionRect, TDEGlobalSettings::highlightColor());
		textColor = TDEGlobalSettings::highlightedTextColor();
	} else
		textColor = TDEGlobalSettings::textColor();
	m_selector->drawColorRect(painter, x, y, m_otherColor, /*isDefault=*/false, colorWidth, colorHeight);
	painter.setFont(m_selector->font());
	painter.setPen(textColor);
	painter.drawText(x + 2 + colorWidth, y, /*width=*/5000, colorHeight, AlignLeft | AlignVCenter | DontClip, i18n("Other..."));

//	TQPoint pos = mapFromGlobal(TQCursor::pos());
//	painter.drawRect(pos.x(), pos.y(), 5000, 5000);
}

void KColorPopup::updateCell(int column, int row)
{
	int  colorHeight = m_selector->colorRectHeight();
	int  colorWidth  = m_selector->colorRectWidthForHeight(colorHeight);

	int x      = 1 + MARGIN + - 2 + column * (colorWidth  + MARGIN);
	int y      = 1 + MARGIN + - 2 + row    * (colorHeight + MARGIN);
	int width  = colorWidth  + MARGIN;
	int height = colorHeight + MARGIN;

	if (row == m_selector->rowCount()) {
		if (m_selectedColumn < m_columnOther) // The "(Default)" cell:
			width = (colorWidth  + MARGIN) * m_columnOther;
		else // The "Other..." cell:
			width = (colorWidth  + MARGIN) * (m_selector->columnCount() - m_columnOther);
	}

	update(x, y, width, height);
}

void KColorPopup::doSelection()
{
	m_otherColor = TQColor();

	// If the selected color is not the default one, try to find it in the array:
	if (m_selector->color().isValid()) {
		bool isInArray = false;
		for (int column = 0; column < m_selector->columnCount(); ++column)
			for (int row = 0; row < m_selector->rowCount(); ++row)
				if (m_selector->color() == m_selector->colorAt(column, row)) {
					m_selectedColumn = column;
					m_selectedRow    = row;
					isInArray        = true;
				}
		// If not found in array, it's another one:
		if (!isInArray) {
			m_selectedColumn = m_columnOther;
			m_selectedRow    = m_selector->rowCount();
			m_otherColor     = m_selector->color();
		}
	// If it's the default one:
	} else {
		m_selectedColumn = 0;
		m_selectedRow    = m_selector->rowCount();
	}
}

void KColorPopup::validate()
{
	hide();
	close();

	if (m_selectedRow != m_selector->rowCount()) // A normal row:
		m_selector->setColor(m_selector->colorAt(m_selectedColumn, m_selectedRow));
	else if (m_selectedColumn < m_columnOther) // The default color:
		m_selector->setColor(TQColor());
	else { // The user want to choose one:
		TQColor color = m_selector->effectiveColor();
		if (KColorDialog::getColor(color, this) == TQDialog::Accepted)
			m_selector->setColor(color);
	}
}

void KColorPopup::mousePressEvent(TQMouseEvent *event)
{
	int x = event->pos().x();
	int y = event->pos().y();
	if (x < 0 || y < 0 || x >= width() || y >= height()) {
		hide();
		close();
	} else
		validate();

	event->accept();
}

void KColorPopup::paintEvent(TQPaintEvent *event)
{
	TQPainter painter(this);
	painter.drawPixmap(0, 0, m_pixmap);
	painter.setPen(TQt::black);
	painter.drawRect(event->rect());
}

void KColorPopup::mouseMoveEvent(TQMouseEvent *event)
{
	int x = event->pos().x();
	int y = event->pos().y();
	if (x < FRAME_WIDTH + 2 || y < FRAME_WIDTH + 2 || x > width() - 2 - 2*FRAME_WIDTH || y > height() - 2 - 2*FRAME_WIDTH)
		return;

	int colorHeight = m_selector->colorRectHeight();
	int colorWidth  = m_selector->colorRectWidthForHeight(colorHeight);

// 	int oldSelectedColumn = m_selectedColumn;
// 	int oldSelectedRow    = m_selectedRow;
	m_selectedColumn = (x - FRAME_WIDTH - MARGIN + 2) / (colorWidth  + MARGIN);
	m_selectedRow    = (y - FRAME_WIDTH - MARGIN + 2) / (colorHeight + MARGIN);

	relayout();
	update();
}

void KColorPopup::keyPressEvent(TQKeyEvent *event)
{
	int column      = m_selectedColumn;
	int row         = m_selectedRow;
	int columnCount = m_selector->columnCount();
	int rowCount    = m_selector->rowCount();

	switch (event->key()) {
		case TQt::Key_Right:
			if (m_selectedRow != rowCount) // A normal row:
				column = (column + 1) % columnCount;
			else {
				// The last row, if there are two choices, switch. Else, do nothing:
				if (m_selector->defaultColor().isValid())
					column = (m_selectedColumn < m_columnOther ? m_columnOther : 0);
			}
			break;
		case TQt::Key_Left:
			if (m_selectedRow != rowCount) { // A normal row:
				column = (column - 1);
				if (column < 0)
					column = columnCount - 1;
			} else {
				// The last row, if there are two choices, switch. Else, do nothing:
				if (m_selector->defaultColor().isValid())
					column = (m_selectedColumn < m_columnOther ? m_columnOther : 0);
			}
			break;
		case TQt::Key_Up:       row    = (row    - 1); if (row < 0)    row    = rowCount;        break;
		case TQt::Key_Down:     row    = (row    + 1) % (rowCount+1);          break;
		case TQt::Key_PageDown: row += 10; if (row > rowCount) row = rowCount; break;
		case TQt::Key_PageUp:   row -= 10; if (row < 0)        row = 0;        break;
		case TQt::Key_Home:     row = 0;        column = 0;                    break;
		case TQt::Key_End:      row = rowCount; column = columnCount - 1;      break;
		case TQt::Key_Return:
			validate();
			break;
		default:
			TQWidget::keyPressEvent(event);
	}

	if (row != m_selectedRow || column != m_selectedColumn) {
		m_selectedRow    = row;
		m_selectedColumn = column;
		relayout();
		update();
	}
}

/** Helper function: */

TQColor Tool_mixColors(const TQColor &color1, const TQColor &color2)
{
	TQColor mixedColor;
	mixedColor.setRgb( (color1.red()   + color2.red())   / 2,
	                   (color1.green() + color2.green()) / 2,
	                   (color1.blue()  + color2.blue())  / 2 );
	return mixedColor;
}

/** class KColorCombo2Private */

class KColorCombo2::KColorCombo2Private
{
};

/** class KColorCombo2: */

/* All code for the popup management (including the constructor, popup() and eventFilter())
 * has been copied from the KDateEdit widget (in libtdepim).
 *
 * Some other piece of code comes from KColorButton (in libtdeui) to enable color drag, drop, copy and paste.
 */

KColorCombo2::KColorCombo2(const TQColor &color, const TQColor &defaultColor, TQWidget *parent, const char *name)
 : TQComboBox(/*editable=*/false, parent, name),
   m_color(color), m_defaultColor(defaultColor)
{
	init();
}

KColorCombo2::KColorCombo2(const TQColor &color, TQWidget *parent, const char *name)
 : TQComboBox(/*editable=*/false, parent, name),
   m_color(color), m_defaultColor()
{
	init();
}

void KColorCombo2::init()
{
	m_discardNextMousePress = false;
	m_colorArray            = 0;
	d                       = new KColorCombo2Private();

	setDefaultColor(m_defaultColor);
	insertItem("", /*index=*/0);
	updateComboBox(); // It need an item of index 0 to exists, so we created it.
	setAcceptDrops(true);

	m_popup = new KColorPopup(this);
	m_popup->installEventFilter(this);

	// By default, the array is filled with setRainbowPreset().
	// But we allocate it on demand (the later as possible) to avoid performances issues if the developer set another array.
	// However, to keep columnCount() rowCount() const, we define theme here:
	m_columnCount = 13;
	m_rowCount    = 9;
}

KColorCombo2::~KColorCombo2()
{
	deleteColorArray();
}

void KColorCombo2::setColor(const TQColor &color)
{
	// Do nothing if the color should be set to the default one and there is no such default color allowed:
	if (!color.isValid() && !m_defaultColor.isValid()) {
		// kdebug << this::FUNCTION << "Trying to assign the default color (an invalid one) whereas no such default color is allowed";
		return;
	}

	if (m_color != color) {
		m_color = color;
		updateComboBox();
		emit changed(color);
	}
}

TQColor KColorCombo2::color() const
{
	return m_color;
}

TQColor KColorCombo2::effectiveColor() const
{
	if (m_color.isValid())
		return m_color;
	else
		return m_defaultColor;
}

void KColorCombo2::setRainbowPreset(int colorColumnCount, int lightRowCount, int darkRowCount, bool withGray)
{
	// At least one row and one column:
	if (colorColumnCount < 1 - (withGray ? 1 : 0))
		colorColumnCount = 1 - (withGray ? 1 : 0);
	if (lightRowCount < 0)
		lightRowCount = 0;
	if (darkRowCount < 0)
		darkRowCount = 0;

	// Create the array:
	int  columnCount = colorColumnCount + (withGray ? 1 : 0);
	int  rowCount    = lightRowCount + 1 + darkRowCount;
	newColorArray(columnCount, rowCount);

	// Fill the array:
	for (int i = 0; i < colorColumnCount; ++i) {
		int hue = i * 360 / colorColumnCount;
		// With light colors:
		for (int j = 1; j <= lightRowCount; ++j) { // Start to 1 because we don't want a row full of white!
			int saturation = j * 255 / (lightRowCount + 1);
			setColorAt(i, j - 1, TQColor(hue, saturation, 255, TQColor::Hsv));
		}
		// With pure colors:
		setColorAt(i, lightRowCount, TQColor(hue, 255, 255, TQColor::Hsv));
		// With dark colors:
		for (int j = 1; j <= darkRowCount; ++j) {
			int value = 255 - j * 255 / (darkRowCount + 1);
			setColorAt(i, lightRowCount + j, TQColor(hue, 255, value, TQColor::Hsv));
		}
	}

	// Fill the gray column:
	if (withGray) {
		for (int i = 0; i < rowCount; ++i) {
			int gray = ( rowCount == 1  ?  128  :  255 - (i * 255 / (rowCount - 1)) );
			setColorAt(columnCount-1, i, TQColor(gray, gray, gray));
		}
	}

#ifdef DEBUG_COLOR_ARRAY
	std::cout << "KColorCombo2::setColorPreset" << std::endl;
	for (int j = 0; j < rowCount; ++j) {
		for (int i = 0; i < columnCount; ++i) {
			int h, s, v;
			m_colorArray[i][j].getHsv(h, s, v);
			std::cout << "(" << std::setw(3) << h << "," << std::setw(3) << s << "," << std::setw(3) << v << ") ";
			//std::cout << colorArray[i][j].name() << " ";
		}
		std::cout << std::endl;
	}
#endif
#ifdef OUTPUT_GIMP_PALETTE
	std::cout << "GIMP Palette" << std::endl;
	for (int j = 0; j < rowCount; ++j) {
		for (int i = 0; i < columnCount; ++i) {
			std::cout << std::setw(3) << m_colorArray[i][j].red() << ", " << std::setw(3) << m_colorArray[i][j].green() << ", " << std::setw(3) << m_colorArray[i][j].blue() << std::endl;
		}
	}
#endif
}

int KColorCombo2::columnCount() const
{
	return m_columnCount;
}

int KColorCombo2::rowCount() const
{
	return m_rowCount;
}

TQColor KColorCombo2::colorAt(int column, int row)/* const*/
{
	if (!m_colorArray)
		setRainbowPreset();

	if (column < 0 || row < 0 || column >= m_columnCount || row >= m_rowCount)
		return TQColor();

	return m_colorArray[column][row];
}

TQColor KColorCombo2::defaultColor() const
{
	return m_defaultColor;
}

void KColorCombo2::newColorArray(int columnCount, int rowCount)
{
	if (columnCount <= 0 || rowCount <= 0) {
		// kdebug << this::FUNCTION << "Trying to create an empty new color array (with %d columns and %d rows)";
		return;
	}

	// Delete any previous array (if any):
	deleteColorArray();

	// Create a new array of the wanted dimentions:
	m_columnCount = columnCount;
	m_rowCount    = rowCount;
	m_colorArray  = new TQColor* [columnCount];
	for (int i = 0; i < columnCount; ++i)
		m_colorArray[i] = new TQColor[rowCount];

	m_popup->relayout();
}

void KColorCombo2::setColorAt(int column, int row, const TQColor &color)
{
	if (!m_colorArray)
		setRainbowPreset();

	if (column < 0 || row < 0 || column >= m_columnCount || row >= m_rowCount) {
		// kdebug << this::FUNCTION << "Trying to set a color at an invalid index (at column %d and row %d, whereas the array have %d columns and %d rows)";
		return;
	}

	m_colorArray[column][row] = color;
}

void KColorCombo2::setDefaultColor(const TQColor &color)
{
	m_defaultColor = color;
	if (!m_defaultColor.isValid() && !m_color.isValid())
		m_color = TQt::white; // FIXME: Use the first one.
}

TQPixmap KColorCombo2::colorRectPixmap(const TQColor &color, bool isDefault, int width, int height)
{
	// Prepare to draw:
	TQPixmap  pixmap(width, height);
	TQBitmap  mask(width, height);
	TQPainter painter(&pixmap);
	TQPainter maskPainter(&mask);

	// Draw pixmap:
	drawColorRect(painter, 0, 0, color, isDefault, width, height);

	// Draw mask (make the four corners transparent):
	maskPainter.fillRect(0, 0, width, height, TQt::color1); // opaque
	maskPainter.setPen(TQt::color0); // transparent
	maskPainter.drawPoint(0,         0);
	maskPainter.drawPoint(0,         height - 1);
	maskPainter.drawPoint(width - 1, height - 1);
	maskPainter.drawPoint(width - 1, 0);

	// Finish:
	painter.end();
	maskPainter.end();
	pixmap.setMask(mask);
	return pixmap;
}

void KColorCombo2::drawColorRect(TQPainter &painter, int x, int y, const TQColor &color, bool isDefault, int width, int height)
{
	// Fill:
	if (color.isValid())
		painter.fillRect(x /*+ 1*/, y /*+ 1*/, width /*- 2*/, height /*- 2*/, color);
	else {
		// If it's an invalid color, it's for the "Other..." entry: draw a rainbow.
		// If it wasn't for the "Other..." entry, the programmer made a fault, so (s)he will be informed about that visually.
		for (int i = 0; i < width-2; ++i) {
			int hue = i * 360 / (width-2);
			for (int j = 0; j < height-2; ++j) {
				int saturation = 255 - (j * 255 / (height-2));
				painter.setPen( TQColor(hue, saturation, /*value=*/255, TQColor::Hsv) );
				painter.drawPoint(x + i + 1, y + j + 1);
			}
		}
	}

	// Stroke:
	int dontCare, value;
	color.getHsv(/*hue:*/&dontCare, /*saturation:*/&dontCare, &value);
	TQColor stroke = (color.isValid() ? color.dark(125) : TDEGlobalSettings::textColor());
	painter.setPen(/*color);//*/stroke);
	painter.drawLine(x + 1,         y,              x + width - 2, y);
	painter.drawLine(x,             y + 1,          x,             y + height - 2);
	painter.drawLine(x + 1,         y + height - 1, x + width - 2, y + height - 1);
	painter.drawLine(x + width - 1, y + 1,          x + width - 1, y + height - 2);

	// Round corners:
	TQColor antialiasing;
	if (color.isValid()) {
		antialiasing = Tool_mixColors(color, stroke);
		painter.setPen(antialiasing);
		painter.drawPoint(x + 1,         y + 1);
		painter.drawPoint(x + 1,         y + height - 2);
		painter.drawPoint(x + width - 2, y + height - 2);
		painter.drawPoint(x + width - 2, y + 1);
	} else {
		// The two top corners:
		antialiasing = Tool_mixColors(TQt::red, stroke);
		painter.setPen(antialiasing);
		painter.drawPoint(x + 1,         y + 1);
		painter.drawPoint(x + width - 2, y + 1);
		// The two bottom ones:
		antialiasing = Tool_mixColors(TQt::white, stroke);
		painter.setPen(antialiasing);
		painter.drawPoint(x + 1,         y + height - 2);
		painter.drawPoint(x + width - 2, y + height - 2);
	}

	// Mark default color:
	if (isDefault) {
		painter.setPen(stroke);
		painter.drawLine(x + 1, y + height - 2, x + width - 2, y + 1);
	}
}

int KColorCombo2::colorRectHeight() const
{
	return (fontMetrics().boundingRect(i18n("(Default)")).height() + 2)*3/2;
}

int KColorCombo2::colorRectWidthForHeight(int height) const
{
	return height * 14 / 10; // 1.4 times the height, like A4 papers.
}

void KColorCombo2::deleteColorArray()
{
	if (m_colorArray) {
		for (int i = 0; i < m_columnCount; ++i)
			delete[] m_colorArray[i];
		delete[] m_colorArray;
		m_colorArray = 0;
	}
}

void KColorCombo2::updateComboBox()
{
	int height = colorRectHeight()*2/3; // fontMetrics().boundingRect(i18n("(Default)")).height() + 2
	TQPixmap pixmap = colorRectPixmap(effectiveColor(), !m_color.isValid(), colorRectWidthForHeight(height), height); // TODO: isDefaultColorSelected()
	changeItem(pixmap, (m_color.isValid() ? "" : i18n("(Default)")), /*index=*/0);
}

void KColorCombo2::popup()
{
	if (!m_colorArray)
		setRainbowPreset();

	// Compute where to show the popup:
	TQRect desk = TDEGlobalSettings::desktopGeometry(this);

	TQPoint popupPoint = mapToGlobal(TQPoint(0, 0));

	int popupHeight = m_popup->sizeHint().height();
	if (popupPoint.y() + height() + popupHeight > desk.bottom())
		popupPoint.setY(popupPoint.y() - popupHeight);
	else
		popupPoint.setY(popupPoint.y() + height());

	int popupWidth = m_popup->sizeHint().width();
	if (popupPoint.x() + popupWidth > desk.right())
		popupPoint.setX(desk.right() - popupWidth);

	if (popupPoint.x() < desk.left())
		popupPoint.setX(desk.left());

	if (popupPoint.y() < desk.top())
		popupPoint.setY(desk.top());

	// Configure the popup:
	m_popup->move(popupPoint);
	//m_popup->setColor(m_color);
	m_popup->doSelection();
	m_popup->relayout(); // FIXME: In aboutToShow() ?
#if 0
//#ifndef TQT_NO_EFFECTS
	if (TQApplication::isEffectEnabled(UI_AnimateCombo)) {
		if (m_popup->y() < mapToGlobal(TQPoint(0,0)).y())
			qScrollEffect(m_popup, TQEffects::UpScroll);
		else
			qScrollEffect(m_popup);
	} else
#endif
		m_popup->show();

	// The combo box is now shown pressed. Make it show not pressed again
	// by causing its (invisible) list box to emit a 'selected' signal.
	// Simulate an Enter to unpress it:
	TQListBox *lb = listBox();
	if (lb) {
		lb->setCurrentItem(0);
		TQKeyEvent* keyEvent = new TQKeyEvent(TQEvent::KeyPress, TQt::Key_Enter, 0, 0);
		TQApplication::postEvent(lb, keyEvent);
	}
}

bool KColorCombo2::eventFilter(TQObject */*object*/, TQEvent *event)
{
	TQMouseEvent *mouseEvent;

	switch (event->type()) {
		case TQEvent::MouseButtonDblClick:
		case TQEvent::MouseButtonPress:
			mouseEvent = (TQMouseEvent*)event;
			if ( !m_popup->rect().contains(mouseEvent->pos()) ) {
				TQPoint globalPos = m_popup->mapToGlobal(mouseEvent->pos());
				if (TQApplication::widgetAt(globalPos, /*child=*/true) == this) {
					// The popup is being closed by a click on the KColorCombo2 widget.
					// Avoid popping it up again immediately:
					m_discardNextMousePress = true;
				}
			}
			break;
		default:
			break;
	}

	// Don't stop the event being handled further:
	return false;
}

void KColorCombo2::mousePressEvent(TQMouseEvent *event)
{
	m_dragStartPos = event->pos();

	if (event->button() == TQt::LeftButton && m_discardNextMousePress)
		m_discardNextMousePress = false;
	else
		TQComboBox::mousePressEvent(event);
}

void KColorCombo2::mouseMoveEvent(TQMouseEvent *event)
{
	if( (event->state() & TQt::LeftButton) &&
	    (event->pos() - m_dragStartPos).manhattanLength() > TDEGlobalSettings::dndEventDelay() ) {
		// Drag color object:
		KColorDrag *colorDrag = new KColorDrag(effectiveColor(), this);
		// Replace the drag pixmap with our own rounded one, at the same position and dimetions:
		TQPixmap pixmap = colorDrag->pixmap();
		pixmap = colorRectPixmap(effectiveColor(), /*isDefault=*/false, pixmap.width(), pixmap.height());
		colorDrag->setPixmap(pixmap, colorDrag->pixmapHotSpot());
		colorDrag->dragCopy();
		//setDown(false);
	}
}

void KColorCombo2::dragEnterEvent(TQDragEnterEvent *event)
{
	event->accept(isEnabled() && KColorDrag::canDecode(event));
}

void KColorCombo2::dropEvent(TQDropEvent *event)
{
	TQColor color;
	if (KColorDrag::decode(event, color))
		setColor(color);
}

void KColorCombo2::keyPressEvent(TQKeyEvent *event)
{
	KKey key(event);

	if (TDEStdAccel::copy().contains(key)) {
		TQMimeSource *mime = new KColorDrag(effectiveColor());
		TQApplication::clipboard()->setData(mime, TQClipboard::Clipboard);
	} else if (TDEStdAccel::paste().contains(key)) {
		TQColor color;
		KColorDrag::decode(TQApplication::clipboard()->data(TQClipboard::Clipboard), color);
		setColor(color);
	} else
		TQComboBox::keyPressEvent(event);
}

void KColorCombo2::fontChange(const TQFont &oldFont)
{
	// Since the color-rectangle is the same height of the text, we should resize it if the font change:
	updateComboBox();
	TQComboBox::fontChange(oldFont); // To update geometry.
}

void KColorCombo2::virtual_hook(int /*id*/, void */*data*/)
{
	/* KBASE::virtual_hook(id, data); */
}

#include "kcolorcombo2.moc"