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tdegraphics/kolourpaint/tools/kptoolpen.cpp

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/*
Copyright (c) 2003,2004,2005 Clarence Dang <dang@kde.org>
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#define DEBUG_KP_TOOL_PEN 0
#include <tqapplication.h>
#include <tqbitmap.h>
#include <tqcursor.h>
#include <tqimage.h>
#include <tqpainter.h>
#if DEBUG_KP_TOOL_PEN
#include <tqdatetime.h>
#endif
#include <kdebug.h>
#include <klocale.h>
#include <kpcolor.h>
#include <kpcommandhistory.h>
#include <kpcursorprovider.h>
#include <kptoolpen.h>
#include <kpdefs.h>
#include <kpdocument.h>
#include <kpmainwindow.h>
#include <kppixmapfx.h>
#include <kptemppixmap.h>
#include <kptoolclear.h>
#include <kptooltoolbar.h>
#include <kptoolwidgetbrush.h>
#include <kptoolwidgeterasersize.h>
#include <kpviewmanager.h>
/*
* kpToolPen
*/
kpToolPen::kpToolPen (Mode mode,
const TQString &text, const TQString &description,
int key,
kpMainWindow *mainWindow, const char *name)
: kpTool (text, description, key, mainWindow, name),
m_mode (mode),
m_toolWidgetBrush (0),
m_toolWidgetEraserSize (0),
m_currentCommand (0)
{
}
kpToolPen::kpToolPen (kpMainWindow *mainWindow)
: kpTool (i18n ("Pen"), i18n ("Draws dots and freehand strokes"),
TQt::Key_P,
mainWindow, "tool_pen"),
m_mode (Pen),
m_toolWidgetBrush (0),
m_toolWidgetEraserSize (0),
m_currentCommand (0)
{
}
void kpToolPen::setMode (Mode mode)
{
int usesPixmaps = (mode & (DrawsPixmaps | WashesPixmaps));
int usesBrushes = (mode & (SquareBrushes | DiverseBrushes));
if ((usesPixmaps && !usesBrushes) ||
(usesBrushes && !usesPixmaps))
{
kdError () << "kpToolPen::setMode() passed invalid mode" << endl;
return;
}
m_mode = mode;
}
kpToolPen::~kpToolPen ()
{
}
// private
TQString kpToolPen::haventBegunDrawUserMessage () const
{
switch (m_mode)
{
case Pen:
case Brush:
return i18n ("Click to draw dots or drag to draw strokes.");
return i18n ("Click to draw dots or drag to draw strokes.");
case Eraser:
return i18n ("Click or drag to erase.");
case ColorWasher:
return i18n ("Click or drag to erase pixels of the foreground color.");
default:
return TQString();
}
}
// virtual
void kpToolPen::begin ()
{
m_toolWidgetBrush = 0;
m_brushIsDiagonalLine = false;
kpToolToolBar *tb = toolToolBar ();
if (!tb)
return;
if (m_mode & SquareBrushes)
{
m_toolWidgetEraserSize = tb->toolWidgetEraserSize ();
connect (m_toolWidgetEraserSize, TQT_SIGNAL (eraserSizeChanged (int)),
this, TQT_SLOT (slotEraserSizeChanged (int)));
m_toolWidgetEraserSize->show ();
slotEraserSizeChanged (m_toolWidgetEraserSize->eraserSize ());
viewManager ()->setCursor (kpCursorProvider::lightCross ());
}
if (m_mode & DiverseBrushes)
{
m_toolWidgetBrush = tb->toolWidgetBrush ();
connect (m_toolWidgetBrush, TQT_SIGNAL (brushChanged (const TQPixmap &, bool)),
this, TQT_SLOT (slotBrushChanged (const TQPixmap &, bool)));
m_toolWidgetBrush->show ();
slotBrushChanged (m_toolWidgetBrush->brush (),
m_toolWidgetBrush->brushIsDiagonalLine ());
viewManager ()->setCursor (kpCursorProvider::lightCross ());
}
setUserMessage (haventBegunDrawUserMessage ());
}
// virtual
void kpToolPen::end ()
{
if (m_toolWidgetEraserSize)
{
disconnect (m_toolWidgetEraserSize, TQT_SIGNAL (eraserSizeChanged (int)),
this, TQT_SLOT (slotEraserSizeChanged (int)));
m_toolWidgetEraserSize = 0;
}
if (m_toolWidgetBrush)
{
disconnect (m_toolWidgetBrush, TQT_SIGNAL (brushChanged (const TQPixmap &, bool)),
this, TQT_SLOT (slotBrushChanged (const TQPixmap &, bool)));
m_toolWidgetBrush = 0;
}
kpViewManager *vm = viewManager ();
if (vm)
{
if (vm->tempPixmap () && vm->tempPixmap ()->isBrush ())
vm->invalidateTempPixmap ();
if (m_mode & (SquareBrushes | DiverseBrushes))
vm->unsetCursor ();
}
// save memory
for (int i = 0; i < 2; i++)
m_brushPixmap [i].resize (0, 0);
m_cursorPixmap.resize (0, 0);
}
// virtual
void kpToolPen::beginDraw ()
{
switch (m_mode)
{
case Pen:
m_currentCommand = new kpToolPenCommand (i18n ("Pen"), mainWindow ());
break;
case Brush:
m_currentCommand = new kpToolPenCommand (i18n ("Brush"), mainWindow ());
break;
case Eraser:
m_currentCommand = new kpToolPenCommand (i18n ("Eraser"), mainWindow ());
break;
case ColorWasher:
m_currentCommand = new kpToolPenCommand (i18n ("Color Eraser"), mainWindow ());
break;
default:
m_currentCommand = new kpToolPenCommand (i18n ("Custom Pen or Brush"), mainWindow ());
break;
}
// we normally show the Brush pix in the foreground colour but if the
// user starts drawing in the background color, we don't want to leave
// the cursor in the foreground colour -- just hide it in all cases
// to avoid confusion
viewManager ()->invalidateTempPixmap ();
setUserMessage (cancelUserMessage ());
}
// virtual
void kpToolPen::hover (const TQPoint &point)
{
#if DEBUG_KP_TOOL_PEN && 0
kdDebug () << "kpToolPen::hover(" << point << ")"
<< " hasBegun=" << hasBegun ()
<< " hasBegunDraw=" << hasBegunDraw ()
<< " cursorPixmap.isNull=" << m_cursorPixmap.isNull ()
<< endl;
#endif
if (point != KP_INVALID_POINT && !m_cursorPixmap.isNull ())
{
// (for hotPoint() as m_mouseButton is not normally defined in hover())
m_mouseButton = 0;
kpTempPixmap::RenderMode renderMode;
TQPixmap cursorPixmapForTempPixmap = m_cursorPixmap;
if (m_mode & SquareBrushes)
renderMode = kpTempPixmap::SetPixmap;
else if (m_mode & DiverseBrushes)
{
if (color (0).isOpaque ())
renderMode = kpTempPixmap::PaintPixmap;
else
{
renderMode = kpTempPixmap::PaintMaskTransparentWithBrush;
cursorPixmapForTempPixmap = kpPixmapFX::getNonNullMask (m_cursorPixmap);
}
}
viewManager ()->setFastUpdates ();
viewManager ()->setTempPixmap (
kpTempPixmap (true/*brush*/,
renderMode,
hotPoint (),
cursorPixmapForTempPixmap));
viewManager ()->restoreFastUpdates ();
}
#if DEBUG_KP_TOOL_PEN && 0
if (document ()->rect ().contains (point))
{
TQImage image = kpPixmapFX::convertToImage (*document ()->pixmap ());
TQRgb v = image.pixel (point.x (), point.y ());
kdDebug () << "(" << point << "): r=" << tqRed (v)
<< " g=" << tqGreen (v)
<< " b=" << tqBlue (v)
<< " a=" << tqAlpha (v)
<< endl;
}
#endif
setUserShapePoints (point);
}
bool kpToolPen::wash (TQPainter *painter, TQPainter *maskPainter,
const TQImage &image,
const kpColor &colorToReplace,
const TQRect &imageRect, int plotx, int ploty)
{
return wash (painter, maskPainter, image, colorToReplace, imageRect, hotRect (plotx, ploty));
}
bool kpToolPen::wash (TQPainter *painter, TQPainter *maskPainter,
const TQImage &image,
const kpColor &colorToReplace,
const TQRect &imageRect, const TQRect &drawRect)
{
bool didSomething = false;
#if DEBUG_KP_TOOL_PEN && 0
kdDebug () << "kpToolPen::wash(imageRect=" << imageRect
<< ",drawRect=" << drawRect
<< ")" << endl;
#endif
// make use of scanline coherence
#define FLUSH_LINE() \
{ \
if (painter && painter->isActive ()) \
painter->drawLine (startDrawX, y, x - 1, y); \
if (maskPainter && maskPainter->isActive ()) \
maskPainter->drawLine (startDrawX, y, x - 1, y); \
didSomething = true; \
startDrawX = -1; \
}
const int maxY = drawRect.bottom () - imageRect.top ();
const int minX = drawRect.left () - imageRect.left ();
const int maxX = drawRect.right () - imageRect.left ();
for (int y = drawRect.top () - imageRect.top ();
y <= maxY;
y++)
{
int startDrawX = -1;
int x; // for FLUSH_LINE()
for (x = minX; x <= maxX; x++)
{
#if DEBUG_KP_TOOL_PEN && 0
fprintf (stderr, "y=%i x=%i colorAtPixel=%08X colorToReplace=%08X ... ",
y, x,
kpPixmapFX::getColorAtPixel (image, TQPoint (x, y)).toTQRgb (),
colorToReplace.toTQRgb ());
#endif
if (kpPixmapFX::getColorAtPixel (image, TQPoint (x, y)).isSimilarTo (colorToReplace, processedColorSimilarity ()))
{
#if DEBUG_KP_TOOL_PEN && 0
fprintf (stderr, "similar\n");
#endif
if (startDrawX < 0)
startDrawX = x;
}
else
{
#if DEBUG_KP_TOOL_PEN && 0
fprintf (stderr, "different\n");
#endif
if (startDrawX >= 0)
FLUSH_LINE ();
}
}
if (startDrawX >= 0)
FLUSH_LINE ();
}
#undef FLUSH_LINE
return didSomething;
}
// virtual
void kpToolPen::globalDraw ()
{
// it's easiest to reimplement globalDraw() here rather than in
// all the relevant subclasses
if (m_mode == Eraser)
{
#if DEBUG_KP_TOOL_PEN
kdDebug () << "kpToolPen::globalDraw() eraser" << endl;
#endif
mainWindow ()->commandHistory ()->addCommand (
new kpToolClearCommand (false/*act on doc, not sel*/, mainWindow ()));
}
else if (m_mode == ColorWasher)
{
#if DEBUG_KP_TOOL_PEN
kdDebug () << "kpToolPen::globalDraw() colour eraser" << endl;
#endif
if (foregroundColor () == backgroundColor () && processedColorSimilarity () == 0)
return;
TQApplication::setOverrideCursor (TQt::waitCursor);
kpToolPenCommand *cmd = new kpToolPenCommand (
i18n ("Color Eraser"), mainWindow ());
TQPainter painter, maskPainter;
TQBitmap maskBitmap;
if (backgroundColor ().isOpaque ())
{
painter.begin (document ()->pixmap ());
painter.setPen (backgroundColor ().toTQColor ());
}
if (backgroundColor ().isTransparent () ||
document ()->pixmap ()->mask ())
{
maskBitmap = kpPixmapFX::getNonNullMask (*document ()->pixmap ());
maskPainter.begin (&maskBitmap);
maskPainter.setPen (backgroundColor ().maskColor ());
}
const TQImage image = kpPixmapFX::convertToImage (*document ()->pixmap ());
TQRect rect = document ()->rect ();
const bool didSomething = wash (&painter, &maskPainter, image,
foregroundColor ()/*replace foreground*/,
rect, rect);
// flush
if (painter.isActive ())
painter.end ();
if (maskPainter.isActive ())
maskPainter.end ();
if (didSomething)
{
if (!maskBitmap.isNull ())
document ()->pixmap ()->setMask (maskBitmap);
document ()->slotContentsChanged (rect);
cmd->updateBoundingRect (rect);
cmd->finalize ();
mainWindow ()->commandHistory ()->addCommand (cmd, false /* don't exec */);
// don't delete - it's up to the commandHistory
cmd = 0;
}
else
{
#if DEBUG_KP_TOOL_PEN
kdDebug () << "\tisNOP" << endl;
#endif
delete cmd;
cmd = 0;
}
TQApplication::restoreOverrideCursor ();
}
}
// virtual
// TODO: refactor!
void kpToolPen::draw (const TQPoint &thisPoint, const TQPoint &lastPoint, const TQRect &)
{
if ((m_mode & WashesPixmaps) && (foregroundColor () == backgroundColor ()) && processedColorSimilarity () == 0)
return;
// sync: remember to restoreFastUpdates() in all exit paths
viewManager ()->setFastUpdates ();
if (m_brushIsDiagonalLine ? currentPointCardinallyNextToLast () : currentPointNextToLast ())
{
if (m_mode & DrawsPixels)
{
TQPixmap pixmap (1, 1);
const kpColor c = color (m_mouseButton);
// OPT: this seems hopelessly inefficient
if (c.isOpaque ())
{
pixmap.fill (c.toTQColor ());
}
else
{
TQBitmap mask (1, 1);
mask.fill (TQt::color0/*transparent*/);
pixmap.setMask (mask);
}
// draw onto doc
document ()->setPixmapAt (pixmap, thisPoint);
m_currentCommand->updateBoundingRect (thisPoint);
}
// Brush & Eraser
else if (m_mode & DrawsPixmaps)
{
if (color (m_mouseButton).isOpaque ())
document ()->paintPixmapAt (m_brushPixmap [m_mouseButton], hotPoint ());
else
{
kpPixmapFX::paintMaskTransparentWithBrush (document ()->pixmap (),
hotPoint (),
kpPixmapFX::getNonNullMask (m_brushPixmap [m_mouseButton]));
document ()->slotContentsChanged (hotRect ());
}
m_currentCommand->updateBoundingRect (hotRect ());
}
else if (m_mode & WashesPixmaps)
{
#if DEBUG_KP_TOOL_PEN
kdDebug () << "Washing pixmap (immediate)" << endl;
TQTime timer;
#endif
TQRect rect = hotRect ();
#if DEBUG_KP_TOOL_PEN
timer.start ();
#endif
TQPixmap pixmap = document ()->getPixmapAt (rect);
#if DEBUG_KP_TOOL_PEN
kdDebug () << "\tget from doc: " << timer.restart () << "ms" << endl;
#endif
const TQImage image = kpPixmapFX::convertToImage (pixmap);
#if DEBUG_KP_TOOL_PEN
kdDebug () << "\tconvert to image: " << timer.restart () << "ms" << endl;
#endif
TQPainter painter, maskPainter;
TQBitmap maskBitmap;
if (color (m_mouseButton).isOpaque ())
{
painter.begin (&pixmap);
painter.setPen (color (m_mouseButton).toTQColor ());
}
if (color (m_mouseButton).isTransparent () ||
pixmap.mask ())
{
maskBitmap = kpPixmapFX::getNonNullMask (pixmap);
maskPainter.begin (&maskBitmap);
maskPainter.setPen (color (m_mouseButton).maskColor ());
}
bool didSomething = wash (&painter, &maskPainter,
image,
color (1 - m_mouseButton)/*color to replace*/,
rect, rect);
if (painter.isActive ())
painter.end ();
if (maskPainter.isActive ())
maskPainter.end ();
if (didSomething)
{
if (!maskBitmap.isNull ())
pixmap.setMask (maskBitmap);
#if DEBUG_KP_TOOL_PEN
kdDebug () << "\twashed: " << timer.restart () << "ms" << endl;
#endif
document ()->setPixmapAt (pixmap, hotPoint ());
#if DEBUG_KP_TOOL_PEN
kdDebug () << "\tset doc: " << timer.restart () << "ms" << endl;
#endif
m_currentCommand->updateBoundingRect (hotRect ());
#if DEBUG_KP_TOOL_PEN
kdDebug () << "\tupdate boundingRect: " << timer.restart () << "ms" << endl;
kdDebug () << "\tdone" << endl;
#endif
}
#if DEBUG_KP_TOOL_PEN && 1
kdDebug () << endl;
#endif
}
}
// in reality, the system is too slow to give us all the MouseMove events
// so we "interpolate" the missing points :)
else
{
// find bounding rectangle
TQRect rect = TQRect (thisPoint, lastPoint).normalize ();
if (m_mode != DrawsPixels)
rect = neededRect (rect, m_brushPixmap [m_mouseButton].width ());
#if DEBUG_KP_TOOL_PEN
if (m_mode & WashesPixmaps)
{
kdDebug () << "Washing pixmap (w=" << rect.width ()
<< ",h=" << rect.height () << ")" << endl;
}
TQTime timer;
int convAndWashTime;
#endif
const kpColor c = color (m_mouseButton);
bool transparent = c.isTransparent ();
TQPixmap pixmap = document ()->getPixmapAt (rect);
TQBitmap maskBitmap;
TQPainter painter, maskPainter;
if (m_mode & (DrawsPixels | WashesPixmaps))
{
if (!transparent)
{
painter.begin (&pixmap);
painter.setPen (c.toTQColor ());
}
if (transparent || pixmap.mask ())
{
maskBitmap = kpPixmapFX::getNonNullMask (pixmap);
maskPainter.begin (&maskBitmap);
maskPainter.setPen (c.maskColor ());
}
}
TQImage image;
if (m_mode & WashesPixmaps)
{
#if DEBUG_KP_TOOL_PEN
timer.start ();
#endif
image = kpPixmapFX::convertToImage (pixmap);
#if DEBUG_KP_TOOL_PEN
convAndWashTime = timer.restart ();
kdDebug () << "\tconvert to image: " << convAndWashTime << " ms" << endl;
#endif
}
bool didSomething = false;
if (m_mode & DrawsPixels)
{
TQPoint sp = lastPoint - rect.topLeft (), ep = thisPoint - rect.topLeft ();
if (painter.isActive ())
painter.drawLine (sp, ep);
if (maskPainter.isActive ())
maskPainter.drawLine (sp, ep);
didSomething = true;
}
// Brush & Eraser
else if (m_mode & (DrawsPixmaps | WashesPixmaps))
{
kpColor colorToReplace;
if (m_mode & WashesPixmaps)
colorToReplace = color (1 - m_mouseButton);
// Sweeps a pixmap along a line (modified Bresenham's line algorithm,
// see MODIFIED comment below).
//
// Derived from the zSprite2 Graphics Engine
const int x1 = (thisPoint - rect.topLeft ()).x (),
y1 = (thisPoint - rect.topLeft ()).y (),
x2 = (lastPoint - rect.topLeft ()).x (),
y2 = (lastPoint - rect.topLeft ()).y ();
// Difference of x and y values
int dx = x2 - x1;
int dy = y2 - y1;
// Absolute values of differences
int ix = kAbs (dx);
int iy = kAbs (dy);
// Larger of the x and y differences
int inc = ix > iy ? ix : iy;
// Plot location
int plotx = x1;
int ploty = y1;
int x = 0;
int y = 0;
if (m_mode & WashesPixmaps)
{
if (wash (&painter, &maskPainter, image,
colorToReplace,
rect, plotx + rect.left (), ploty + rect.top ()))
{
didSomething = true;
}
}
else
{
if (!transparent)
{
kpPixmapFX::paintPixmapAt (&pixmap,
hotPoint (plotx, ploty),
m_brushPixmap [m_mouseButton]);
}
else
{
kpPixmapFX::paintMaskTransparentWithBrush (&pixmap,
hotPoint (plotx, ploty),
kpPixmapFX::getNonNullMask (m_brushPixmap [m_mouseButton]));
}
didSomething = true;
}
for (int i = 0; i <= inc; i++)
{
// oldplotx is equally as valid but would look different
// (but nobody will notice which one it is)
int oldploty = ploty;
int plot = 0;
x += ix;
y += iy;
if (x > inc)
{
plot++;
x -= inc;
if (dx < 0)
plotx--;
else
plotx++;
}
if (y > inc)
{
plot++;
y -= inc;
if (dy < 0)
ploty--;
else
ploty++;
}
if (plot)
{
if (m_brushIsDiagonalLine && plot == 2)
{
// MODIFIED: every point is
// horizontally or vertically adjacent to another point (if there
// is more than 1 point, of course). This is in contrast to the
// ordinary line algorithm which can create diagonal adjacencies.
if (m_mode & WashesPixmaps)
{
if (wash (&painter, &maskPainter, image,
colorToReplace,
rect, plotx + rect.left (), oldploty + rect.top ()))
{
didSomething = true;
}
}
else
{
if (!transparent)
{
kpPixmapFX::paintPixmapAt (&pixmap,
hotPoint (plotx, oldploty),
m_brushPixmap [m_mouseButton]);
}
else
{
kpPixmapFX::paintMaskTransparentWithBrush (&pixmap,
hotPoint (plotx, oldploty),
kpPixmapFX::getNonNullMask (m_brushPixmap [m_mouseButton]));
}
didSomething = true;
}
}
if (m_mode & WashesPixmaps)
{
if (wash (&painter, &maskPainter, image,
colorToReplace,
rect, plotx + rect.left (), ploty + rect.top ()))
{
didSomething = true;
}
}
else
{
if (!transparent)
{
kpPixmapFX::paintPixmapAt (&pixmap,
hotPoint (plotx, ploty),
m_brushPixmap [m_mouseButton]);
}
else
{
kpPixmapFX::paintMaskTransparentWithBrush (&pixmap,
hotPoint (plotx, ploty),
kpPixmapFX::getNonNullMask (m_brushPixmap [m_mouseButton]));
}
didSomething = true;
}
}
}
}
if (painter.isActive ())
painter.end ();
if (maskPainter.isActive ())
maskPainter.end ();
#if DEBUG_KP_TOOL_PEN
if (m_mode & WashesPixmaps)
{
int ms = timer.restart ();
kdDebug () << "\ttried to wash: " << ms << "ms"
<< " (" << (ms ? (rect.width () * rect.height () / ms) : -1234)
<< " pixels/ms)"
<< endl;
convAndWashTime += ms;
}
#endif
if (didSomething)
{
if (!maskBitmap.isNull ())
pixmap.setMask (maskBitmap);
// draw onto doc
document ()->setPixmapAt (pixmap, rect.topLeft ());
#if DEBUG_KP_TOOL_PEN
if (m_mode & WashesPixmaps)
{
int ms = timer.restart ();
kdDebug () << "\tset doc: " << ms << "ms" << endl;
convAndWashTime += ms;
}
#endif
m_currentCommand->updateBoundingRect (rect);
#if DEBUG_KP_TOOL_PEN
if (m_mode & WashesPixmaps)
{
int ms = timer.restart ();
kdDebug () << "\tupdate boundingRect: " << ms << "ms" << endl;
convAndWashTime += ms;
kdDebug () << "\tdone (" << (convAndWashTime ? (rect.width () * rect.height () / convAndWashTime) : -1234)
<< " pixels/ms)"
<< endl;
}
#endif
}
#if DEBUG_KP_TOOL_PEN
if (m_mode & WashesPixmaps)
kdDebug () << endl;
#endif
}
viewManager ()->restoreFastUpdates ();
setUserShapePoints (thisPoint);
}
// virtual
void kpToolPen::cancelShape ()
{
m_currentCommand->finalize ();
m_currentCommand->cancel ();
delete m_currentCommand;
m_currentCommand = 0;
updateBrushCursor (false/*no recalc*/);
setUserMessage (i18n ("Let go of all the mouse buttons."));
}
void kpToolPen::releasedAllButtons ()
{
setUserMessage (haventBegunDrawUserMessage ());
}
// virtual
void kpToolPen::endDraw (const TQPoint &, const TQRect &)
{
m_currentCommand->finalize ();
mainWindow ()->commandHistory ()->addCommand (m_currentCommand, false /* don't exec */);
// don't delete - it's up to the commandHistory
m_currentCommand = 0;
updateBrushCursor (false/*no recalc*/);
setUserMessage (haventBegunDrawUserMessage ());
}
// TODO: maybe the base should be virtual?
kpColor kpToolPen::color (int which)
{
#if DEBUG_KP_TOOL_PEN && 0
kdDebug () << "kpToolPen::color (" << which << ")" << endl;
#endif
// Pen & Brush
if ((m_mode & SwappedColors) == 0)
return kpTool::color (which);
// only the (Color) Eraser uses the opposite color
else
return kpTool::color (which ? 0 : 1); // don't trust !0 == 1
}
// virtual private slot
void kpToolPen::slotForegroundColorChanged (const kpColor &col)
{
#if DEBUG_KP_TOOL_PEN
kdDebug () << "kpToolPen::slotForegroundColorChanged()" << endl;
#endif
if (col.isOpaque ())
m_brushPixmap [(m_mode & SwappedColors) ? 1 : 0].fill (col.toTQColor ());
updateBrushCursor ();
}
// virtual private slot
void kpToolPen::slotBackgroundColorChanged (const kpColor &col)
{
#if DEBUG_KP_TOOL_PEN
kdDebug () << "kpToolPen::slotBackgroundColorChanged()" << endl;
#endif
if (col.isOpaque ())
m_brushPixmap [(m_mode & SwappedColors) ? 0 : 1].fill (col.toTQColor ());
updateBrushCursor ();
}
// private slot
void kpToolPen::slotBrushChanged (const TQPixmap &pixmap, bool isDiagonalLine)
{
#if DEBUG_KP_TOOL_PEN
kdDebug () << "kpToolPen::slotBrushChanged()" << endl;
#endif
for (int i = 0; i < 2; i++)
{
m_brushPixmap [i] = pixmap;
if (color (i).isOpaque ())
m_brushPixmap [i].fill (color (i).toTQColor ());
}
m_brushIsDiagonalLine = isDiagonalLine;
updateBrushCursor ();
}
// private slot
void kpToolPen::slotEraserSizeChanged (int size)
{
#if DEBUG_KP_TOOL_PEN
kdDebug () << "KpToolPen::slotEraserSizeChanged(size=" << size << ")" << endl;
#endif
for (int i = 0; i < 2; i++)
{
// Note: No matter what, the eraser's brush pixmap is never given
// a mask.
//
// With a transparent color, since we don't fill anything, the
// resize by itself will leave us with garbage pixels. This
// doesn't matter because:
//
// 1. The hover cursor will ask kpToolWidgetEraserSize for a proper
// cursor pixmap.
// 2. We will draw using kpPixmapFX::paintMaskTransparentWithBrush()
// which only cares about the opaqueness.
m_brushPixmap [i].resize (size, size);
if (color (i).isOpaque ())
m_brushPixmap [i].fill (color (i).toTQColor ());
}
updateBrushCursor ();
}
TQPoint kpToolPen::hotPoint () const
{
return hotPoint (m_currentPoint);
}
TQPoint kpToolPen::hotPoint (int x, int y) const
{
return hotPoint (TQPoint (x, y));
}
TQPoint kpToolPen::hotPoint (const TQPoint &point) const
{
/*
* e.g.
* Width 5:
* 0 1 2 3 4
* ^
* |
* Center
*/
return point -
TQPoint (m_brushPixmap [m_mouseButton].width () / 2,
m_brushPixmap [m_mouseButton].height () / 2);
}
TQRect kpToolPen::hotRect () const
{
return hotRect (m_currentPoint);
}
TQRect kpToolPen::hotRect (int x, int y) const
{
return hotRect (TQPoint (x, y));
}
TQRect kpToolPen::hotRect (const TQPoint &point) const
{
TQPoint topLeft = hotPoint (point);
return TQRect (topLeft.x (),
topLeft.y (),
m_brushPixmap [m_mouseButton].width (),
m_brushPixmap [m_mouseButton].height ());
}
// private
void kpToolPen::updateBrushCursor (bool recalc)
{
#if DEBUG_KP_TOOL_PEN && 1
kdDebug () << "kpToolPen::updateBrushCursor(recalc=" << recalc << ")" << endl;
#endif
if (recalc)
{
if (m_mode & SquareBrushes)
m_cursorPixmap = m_toolWidgetEraserSize->cursorPixmap (color (0));
else if (m_mode & DiverseBrushes)
m_cursorPixmap = m_brushPixmap [0];
}
hover (hasBegun () ? m_currentPoint : currentPoint ());
}
/*
* kpToolPenCommand
*/
kpToolPenCommand::kpToolPenCommand (const TQString &name, kpMainWindow *mainWindow)
: kpNamedCommand (name, mainWindow),
m_pixmap (*document ()->pixmap ())
{
}
kpToolPenCommand::~kpToolPenCommand ()
{
}
// public virtual [base kpCommand]
int kpToolPenCommand::size () const
{
return kpPixmapFX::pixmapSize (m_pixmap);
}
// public virtual [base kpCommand]
void kpToolPenCommand::execute ()
{
swapOldAndNew ();
}
// public virtual [base kpCommand]
void kpToolPenCommand::unexecute ()
{
swapOldAndNew ();
}
// private
void kpToolPenCommand::swapOldAndNew ()
{
if (m_boundingRect.isValid ())
{
TQPixmap oldPixmap = document ()->getPixmapAt (m_boundingRect);
document ()->setPixmapAt (m_pixmap, m_boundingRect.topLeft ());
m_pixmap = oldPixmap;
}
}
// public
void kpToolPenCommand::updateBoundingRect (const TQPoint &point)
{
updateBoundingRect (TQRect (point, point));
}
// public
void kpToolPenCommand::updateBoundingRect (const TQRect &rect)
{
#if DEBUG_KP_TOOL_PEN & 0
kdDebug () << "kpToolPenCommand::updateBoundingRect() existing="
<< m_boundingRect
<< " plus="
<< rect
<< endl;
#endif
m_boundingRect = m_boundingRect.unite (rect);
#if DEBUG_KP_TOOL_PEN & 0
kdDebug () << "\tresult=" << m_boundingRect << endl;
#endif
}
// public
void kpToolPenCommand::finalize ()
{
if (m_boundingRect.isValid ())
{
// store only needed part of doc pixmap
m_pixmap = kpTool::neededPixmap (m_pixmap, m_boundingRect);
}
else
{
m_pixmap.resize (0, 0);
}
}
// public
void kpToolPenCommand::cancel ()
{
if (m_boundingRect.isValid ())
{
viewManager ()->setFastUpdates ();
document ()->setPixmapAt (m_pixmap, m_boundingRect.topLeft ());
viewManager ()->restoreFastUpdates ();
}
}
#include <kptoolpen.moc>