/* Copyright (c) 2003,2004,2005 Clarence Dang 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_VIEW 0 #define DEBUG_KP_VIEW_RENDERER ((DEBUG_KP_VIEW && 0) || 0) #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if DEBUG_KP_VIEW || DEBUG_KP_VIEW_RENDERER #include #endif #include #include #include #include #include #include #include #include #include #include struct kpViewPrivate { // sync: kpView::paintEvent() // // Normally, these pointers must be valid while the kpView is alive. // Generally, the objects they point to are deleted only after kpView // is deleted. // // However, sometimes we use deleteLater() for the kpView. // Before the delayed deletion is executed, those objects are deleted // and then our paintEvent() is called. paintEvent() must therefore // have some way of realising that those objects have been deleted so // we use guardded pointers. // // For more details, see SVN commit: // "r385274 | dang | 2005-02-02 22:08:27 +1100 (Wed, 02 Feb 2005) | 21 lines". TQGuardedPtr m_document; TQGuardedPtr m_toolToolBar; TQGuardedPtr m_viewManager; TQGuardedPtr m_buddyView; TQGuardedPtr m_scrollableContainer; int m_hzoom, m_vzoom; TQPoint m_origin; bool m_showGrid; bool m_isBuddyViewScrollableContainerRectangleShown; TQRect m_buddyViewScrollableContainerRectangle; TQRegion m_queuedUpdateArea; TQPixmap *m_backBuffer; }; kpView::kpView (kpDocument *document, kpToolToolBar *toolToolBar, kpViewManager *viewManager, kpView *buddyView, kpViewScrollableContainer *scrollableContainer, TQWidget *tqparent, const char *name) : TQWidget (tqparent, name, TQt::WNoAutoErase/*no flicker*/), d (new kpViewPrivate ()) { d->m_document = document; d->m_toolToolBar = toolToolBar; d->m_viewManager = viewManager; d->m_buddyView = buddyView; d->m_scrollableContainer = scrollableContainer; d->m_hzoom = 100, d->m_vzoom = 100; d->m_origin = TQPoint (0, 0); d->m_showGrid = false; d->m_isBuddyViewScrollableContainerRectangleShown = false; d->m_backBuffer = 0; setBackgroundMode (TQt::NoBackground); // no flicker setFocusPolicy (TQ_WheelFocus); setMouseTracking (true); // mouseMoveEvent's even when no mousebtn down setKeyCompression (true); setInputMethodEnabled (true); // ensure using InputMethod } kpView::~kpView () { setHasMouse (false); delete d->m_backBuffer; delete d; } // public kpDocument *kpView::document () const { return d->m_document; } // protected kpSelection *kpView::selection () const { return document () ? document ()->selection () : 0; } // public kpToolToolBar *kpView::toolToolBar () const { return d->m_toolToolBar; } // protected kpTool *kpView::tool () const { return toolToolBar () ? toolToolBar ()->tool () : 0; } // public kpViewManager *kpView::viewManager () const { return d->m_viewManager; } // public kpView *kpView::buddyView () const { return d->m_buddyView; } // public kpViewScrollableContainer *kpView::buddyViewScrollableContainer () const { return (buddyView () ? buddyView ()->scrollableContainer () : 0); } // public kpViewScrollableContainer *kpView::scrollableContainer () const { return d->m_scrollableContainer; } // public int kpView::zoomLevelX (void) const { return d->m_hzoom; } // public int kpView::zoomLevelY (void) const { return d->m_vzoom; } // public virtual void kpView::setZoomLevel (int hzoom, int vzoom) { if (hzoom == d->m_hzoom && vzoom == d->m_vzoom) return; if (hzoom <= 0 || vzoom <= 0) return; d->m_hzoom = hzoom; d->m_vzoom = vzoom; if (viewManager ()) viewManager ()->updateView (this); emit zoomLevelChanged (hzoom, vzoom); } // public TQPoint kpView::origin () const { return d->m_origin; } // public virtual void kpView::setOrigin (const TQPoint &origin) { #if DEBUG_KP_VIEW kdDebug () << "kpView(" << name () << ")::setOrigin" << origin << endl; #endif if (origin == d->m_origin) { #if DEBUG_KP_VIEW kdDebug () << "\tNOP" << endl; #endif return; } d->m_origin = origin; if (viewManager ()) viewManager ()->updateView (this); emit originChanged (origin); } // public bool kpView::canShowGrid () const { // (minimum zoom level < 400% would probably be reported as a bug by // users who thought that the grid was a part of the image!) return ((zoomLevelX () >= 400 && zoomLevelX () % 100 == 0) && (zoomLevelY () >= 400 && zoomLevelY () % 100 == 0)); } // public bool kpView::isGridShown () const { return d->m_showGrid; } // public void kpView::showGrid (bool yes) { if (d->m_showGrid == yes) return; if (yes && !canShowGrid ()) return; d->m_showGrid = yes; if (viewManager ()) viewManager ()->updateView (this); } // public bool kpView::isBuddyViewScrollableContainerRectangleShown () const { return d->m_isBuddyViewScrollableContainerRectangleShown; } // public void kpView::showBuddyViewScrollableContainerRectangle (bool yes) { if (yes == d->m_isBuddyViewScrollableContainerRectangleShown) return; d->m_isBuddyViewScrollableContainerRectangleShown = yes; if (d->m_isBuddyViewScrollableContainerRectangleShown) { // Got these connect statements by analysing deps of // updateBuddyViewScrollableContainerRectangle() rect update code. connect (this, TQT_SIGNAL (zoomLevelChanged (int, int)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); connect (this, TQT_SIGNAL (originChanged (const TQPoint &)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); if (buddyViewScrollableContainer ()) { connect (buddyViewScrollableContainer (), TQT_SIGNAL (contentsMovingSoon (int, int)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); connect (buddyViewScrollableContainer (), TQT_SIGNAL (resized ()), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); } if (buddyView ()) { connect (buddyView (), TQT_SIGNAL (zoomLevelChanged (int, int)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); connect (buddyView (), TQT_SIGNAL (originChanged (const TQPoint &)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); connect (buddyView (), TQT_SIGNAL (sizeChanged (int, int)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); } } else { disconnect (this, TQT_SIGNAL (zoomLevelChanged (int, int)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); disconnect (this, TQT_SIGNAL (originChanged (const TQPoint &)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); if (buddyViewScrollableContainer ()) { disconnect (buddyViewScrollableContainer (), TQT_SIGNAL (contentsMovingSoon (int, int)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); disconnect (buddyViewScrollableContainer (), TQT_SIGNAL (resized ()), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); } if (buddyView ()) { disconnect (buddyView (), TQT_SIGNAL (zoomLevelChanged (int, int)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); disconnect (buddyView (), TQT_SIGNAL (originChanged (const TQPoint &)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); disconnect (buddyView (), TQT_SIGNAL (sizeChanged (int, int)), this, TQT_SLOT (updateBuddyViewScrollableContainerRectangle ())); } } updateBuddyViewScrollableContainerRectangle (); } // protected TQRect kpView::buddyViewScrollableContainerRectangle () const { return d->m_buddyViewScrollableContainerRectangle; } // protected slot void kpView::updateBuddyViewScrollableContainerRectangle () { if (viewManager ()) viewManager ()->setQueueUpdates (); { if (d->m_buddyViewScrollableContainerRectangle.isValid ()) { if (viewManager ()) { // Erase last viewManager ()->updateViewRectangleEdges (this, d->m_buddyViewScrollableContainerRectangle); } } TQRect newRect; if (isBuddyViewScrollableContainerRectangleShown () && buddyViewScrollableContainer () && buddyView ()) { TQRect docRect = buddyView ()->transformViewToDoc ( TQRect (buddyViewScrollableContainer ()->contentsXSoon (), buddyViewScrollableContainer ()->contentsYSoon (), TQMIN (buddyView ()->width (), buddyViewScrollableContainer ()->visibleWidth ()), TQMIN (buddyView ()->height (), buddyViewScrollableContainer ()->visibleHeight ()))); TQRect viewRect = this->transformDocToView (docRect); // (Surround the area of interest by moving outwards by 1 pixel in each // direction - don't overlap area) newRect = TQRect (viewRect.x () - 1, viewRect.y () - 1, viewRect.width () + 2, viewRect.height () + 2); } else { newRect = TQRect (); } if (newRect != d->m_buddyViewScrollableContainerRectangle) { // (must set before updateView() for paintEvent() to see new // rect) d->m_buddyViewScrollableContainerRectangle = newRect; if (newRect.isValid ()) { if (viewManager ()) { viewManager ()->updateViewRectangleEdges (this, d->m_buddyViewScrollableContainerRectangle); } } } } if (viewManager ()) viewManager ()->restoreQueueUpdates (); } // public double kpView::transformViewToDocX (double viewX) const { return (viewX - origin ().x ()) * 100.0 / zoomLevelX (); } // public double kpView::transformViewToDocY (double viewY) const { return (viewY - origin ().y ()) * 100.0 / zoomLevelY (); } // public TQPoint kpView::transformViewToDoc (const TQPoint &viewPoint) const { return TQPoint ((int) transformViewToDocX (viewPoint.x ()), (int) transformViewToDocY (viewPoint.y ())); } // public TQRect kpView::transformViewToDoc (const TQRect &viewRect) const { if (zoomLevelX () == 100 && zoomLevelY () == 100) { return TQRect (viewRect.x () - origin ().x (), viewRect.y () - origin ().y (), viewRect.width (), viewRect.height ()); } else { const TQPoint docTopLeft = transformViewToDoc (viewRect.topLeft ()); // (don't call transformViewToDoc[XY]() - need to round up dimensions) const int docWidth = tqRound (double (viewRect.width ()) * 100.0 / double (zoomLevelX ())); const int docHeight = tqRound (double (viewRect.height ()) * 100.0 / double (zoomLevelY ())); // (like TQWMatrix::Areas) return TQRect (docTopLeft.x (), docTopLeft.y (), docWidth, docHeight); } } // public double kpView::transformDocToViewX (double docX) const { return (docX * zoomLevelX () / 100.0) + origin ().x (); } // public double kpView::transformDocToViewY (double docY) const { return (docY * zoomLevelY () / 100.0) + origin ().y (); } // public TQPoint kpView::transformDocToView (const TQPoint &docPoint) const { return TQPoint ((int) transformDocToViewX (docPoint.x ()), (int) transformDocToViewY (docPoint.y ())); } // public TQRect kpView::transformDocToView (const TQRect &docRect) const { if (zoomLevelX () == 100 && zoomLevelY () == 100) { return TQRect (docRect.x () + origin ().x (), docRect.y () + origin ().y (), docRect.width (), docRect.height ()); } else { const TQPoint viewTopLeft = transformDocToView (docRect.topLeft ()); // (don't call transformDocToView[XY]() - need to round up dimensions) const int viewWidth = tqRound (double (docRect.width ()) * double (zoomLevelX ()) / 100.0); const int viewHeight = tqRound (double (docRect.height ()) * double (zoomLevelY ()) / 100.0); // (like TQWMatrix::Areas) return TQRect (viewTopLeft.x (), viewTopLeft.y (), viewWidth, viewHeight); } } // public TQPoint kpView::transformViewToOtherView (const TQPoint &viewPoint, const kpView *otherView) { if (this == otherView) return viewPoint; const double docX = transformViewToDocX (viewPoint.x ()); const double docY = transformViewToDocY (viewPoint.y ()); const double otherViewX = otherView->transformDocToViewX (docX); const double otherViewY = otherView->transformDocToViewY (docY); return TQPoint ((int) otherViewX, (int) otherViewY); } // public int kpView::zoomedDocWidth () const { return document () ? document ()->width () * zoomLevelX () / 100 : 0; } // public int kpView::zoomedDocHeight () const { return document () ? document ()->height () * zoomLevelY () / 100 : 0; } // public void kpView::setHasMouse (bool yes) { kpViewManager *vm = viewManager (); if (!vm) return; #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::setHasMouse(" << yes << ") existing viewUnderCursor=" << (vm->viewUnderCursor () ? vm->viewUnderCursor ()->name () : "(none)") << endl; #endif if (yes && vm->viewUnderCursor () != this) vm->setViewUnderCursor (this); else if (!yes && vm->viewUnderCursor () == this) vm->setViewUnderCursor (0); } // public void kpView::addToQueuedArea (const TQRegion ®ion) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::addToQueuedArea() already=" << d->m_queuedUpdateArea << " - plus - " << region << endl; #endif d->m_queuedUpdateArea += region; } // public void kpView::addToQueuedArea (const TQRect &rect) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::addToQueuedArea() already=" << d->m_queuedUpdateArea << " - plus - " << rect << endl; #endif d->m_queuedUpdateArea += rect; } // public void kpView::tqinvalidateQueuedArea () { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView::tqinvalidateQueuedArea()" << endl; #endif d->m_queuedUpdateArea = TQRegion (); } // public void kpView::updateQueuedArea () { kpViewManager *vm = viewManager (); #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::updateQueuedArea() vm=" << (bool) vm << " queueUpdates=" << (vm && vm->queueUpdates ()) << " fastUpdates=" << (vm && vm->fastUpdates ()) << " area=" << d->m_queuedUpdateArea << endl; #endif if (!vm) return; if (vm->queueUpdates ()) return; if (!d->m_queuedUpdateArea.isNull ()) vm->updateView (this, d->m_queuedUpdateArea); tqinvalidateQueuedArea (); } // public void kpView::updateMicroFocusHint (const TQRect µFocusHint) { int x = microFocusHint.topLeft().x(); int y = microFocusHint.topLeft().y(); int width = microFocusHint.width(); int height = microFocusHint.height(); setMicroFocusHint (x, y, width, height); } // public TQRect kpView::selectionViewRect () const { return selection () ? transformDocToView (selection ()->boundingRect ()) : TQRect (); } // public TQPoint kpView::mouseViewPoint (const TQPoint &returnViewPoint) const { if (returnViewPoint != KP_INVALID_POINT) return returnViewPoint; else return mapFromGlobal (TQCursor::pos ()); } // public TQPoint kpView::mouseViewPointRelativeToSelection (const TQPoint &viewPoint) const { if (!selection ()) return KP_INVALID_POINT; return mouseViewPoint (viewPoint) - transformDocToView (selection ()->topLeft ()); } // public bool kpView::mouseOnSelection (const TQPoint &viewPoint) const { const TQRect selViewRect = selectionViewRect (); if (!selViewRect.isValid ()) return false; return selViewRect.tqcontains (mouseViewPoint (viewPoint)); } // public int kpView::textSelectionMoveBorderAtomicSize () const { if (!selection () || !selection ()->isText ()) return 0; return TQMAX (4, zoomLevelX () / 100); } // public bool kpView::mouseOnSelectionToMove (const TQPoint &viewPoint) const { if (!mouseOnSelection (viewPoint)) return false; if (!selection ()->isText ()) return true; if (mouseOnSelectionResizeHandle (viewPoint)) return false; const TQPoint viewPointRelSel = mouseViewPointRelativeToSelection (viewPoint); // Middle point should always be selectable const TQPoint selCenterDocPoint = selection ()->boundingRect ().center (); if (tool () && tool ()->currentPoint () == selCenterDocPoint) { return false; } const int atomicSize = textSelectionMoveBorderAtomicSize (); const TQRect selViewRect = selectionViewRect (); return (viewPointRelSel.x () < atomicSize || viewPointRelSel.x () >= selViewRect.width () - atomicSize || viewPointRelSel.y () < atomicSize || viewPointRelSel.y () >= selViewRect.height () - atomicSize); } // protected bool kpView::selectionLargeEnoughToHaveResizeHandlesIfAtomicSize (int atomicSize) const { if (!selection ()) return false; const TQRect selViewRect = selectionViewRect (); return (selViewRect.width () >= atomicSize * 5 || selViewRect.height () >= atomicSize * 5); } // public int kpView::selectionResizeHandleAtomicSize () const { int atomicSize = TQMIN (7, TQMAX (4, zoomLevelX () / 100)); while (atomicSize > 0 && !selectionLargeEnoughToHaveResizeHandlesIfAtomicSize (atomicSize)) { atomicSize--; } return atomicSize; } // public bool kpView::selectionLargeEnoughToHaveResizeHandles () const { return (selectionResizeHandleAtomicSize () > 0); } // public TQRegion kpView::selectionResizeHandlesViewRegion (bool forRenderer) const { TQRegion ret; const int atomicLength = selectionResizeHandleAtomicSize (); if (atomicLength <= 0) return TQRegion (); // HACK: At low zoom (e.g. 100%), resize handles will probably be too // big and overlap text / cursor / too much of selection. // // So limit the _visual_ size of handles at low zoom. The // handles' grab area remains the same for usability; so yes, // there are a few pixels that don't look grabable but they are. // // The real solution is to be able to partially render the // handles outside of the selection view rect. If not possible, // at least for text boxes, render text on top of handles. int normalAtomicLength = atomicLength; int vertEdgeAtomicLength = atomicLength; if (forRenderer && selection ()) { if (zoomLevelX () <= 150) { if (normalAtomicLength > 1) normalAtomicLength--; if (vertEdgeAtomicLength > 1) vertEdgeAtomicLength--; } // 1 line of text? if (selection ()->isText () && selection ()->textLines ().size () == 1) { if (zoomLevelX () <= 150) vertEdgeAtomicLength = TQMIN (vertEdgeAtomicLength, TQMAX (2, zoomLevelX () / 100)); else if (zoomLevelX () <= 250) vertEdgeAtomicLength = TQMIN (vertEdgeAtomicLength, TQMAX (3, zoomLevelX () / 100)); } } const TQRect selViewRect = selectionViewRect (); #define ADD_BOX_RELATIVE_TO_SELECTION(type,x,y) \ ret += TQRect ((x), (y), type##AtomicLength, type##AtomicLength) ADD_BOX_RELATIVE_TO_SELECTION (normal, selViewRect.width () - normalAtomicLength, selViewRect.height () - normalAtomicLength); ADD_BOX_RELATIVE_TO_SELECTION (normal, selViewRect.width () - normalAtomicLength, 0); ADD_BOX_RELATIVE_TO_SELECTION (normal, 0, selViewRect.height () - normalAtomicLength); ADD_BOX_RELATIVE_TO_SELECTION (normal, 0, 0); ADD_BOX_RELATIVE_TO_SELECTION (vertEdge, selViewRect.width () - vertEdgeAtomicLength, (selViewRect.height () - vertEdgeAtomicLength) / 2); ADD_BOX_RELATIVE_TO_SELECTION (normal, (selViewRect.width () - normalAtomicLength) / 2, selViewRect.height () - normalAtomicLength); ADD_BOX_RELATIVE_TO_SELECTION (normal, (selViewRect.width () - normalAtomicLength) / 2, 0); ADD_BOX_RELATIVE_TO_SELECTION (vertEdge, 0, (selViewRect.height () - vertEdgeAtomicLength) / 2); #undef ADD_BOX_RELATIVE_TO_SELECTION ret.translate (selViewRect.x (), selViewRect.y ()); ret = ret.intersect (selViewRect); return ret; } // public int kpView::mouseOnSelectionResizeHandle (const TQPoint &viewPoint) const { #if DEBUG_KP_VIEW kdDebug () << "kpView::mouseOnSelectionResizeHandle(viewPoint=" << viewPoint << ")" << endl; #endif if (!mouseOnSelection (viewPoint)) { #if DEBUG_KP_VIEW kdDebug () << "\tmouse not on sel" << endl; #endif return 0; } const TQRect selViewRect = selectionViewRect (); #if DEBUG_KP_VIEW kdDebug () << "\tselViewRect=" << selViewRect << endl; #endif const int atomicLength = selectionResizeHandleAtomicSize (); #if DEBUG_KP_VIEW kdDebug () << "\tatomicLength=" << atomicLength << endl; #endif if (atomicLength <= 0) { #if DEBUG_KP_VIEW kdDebug () << "\tsel not large enough to have resize handles" << endl; #endif // Want to make it possible to move a small selection return 0; } const TQPoint viewPointRelSel = mouseViewPointRelativeToSelection (viewPoint); #if DEBUG_KP_VIEW kdDebug () << "\tviewPointRelSel=" << viewPointRelSel << endl; #endif #define LOCAL_POINT_IN_BOX_AT(x,y) \ TQRect ((x), (y), atomicLength, atomicLength).tqcontains (viewPointRelSel) // Favour the bottom & right and the corners. if (LOCAL_POINT_IN_BOX_AT (selViewRect.width () - atomicLength, selViewRect.height () - atomicLength)) { return Bottom | Right; } else if (LOCAL_POINT_IN_BOX_AT (selViewRect.width () - atomicLength, 0)) { return Top | Right; } else if (LOCAL_POINT_IN_BOX_AT (0, selViewRect.height () - atomicLength)) { return Bottom | Left; } else if (LOCAL_POINT_IN_BOX_AT (0, 0)) { return Top | Left; } else if (LOCAL_POINT_IN_BOX_AT (selViewRect.width () - atomicLength, (selViewRect.height () - atomicLength) / 2)) { return Right; } else if (LOCAL_POINT_IN_BOX_AT ((selViewRect.width () - atomicLength) / 2, selViewRect.height () - atomicLength)) { return Bottom; } else if (LOCAL_POINT_IN_BOX_AT ((selViewRect.width () - atomicLength) / 2, 0)) { return Top; } else if (LOCAL_POINT_IN_BOX_AT (0, (selViewRect.height () - atomicLength) / 2)) { return Left; } else { #if DEBUG_KP_VIEW kdDebug () << "\tnot on sel resize handle" << endl; #endif return 0; } #undef LOCAL_POINT_IN_BOX_AT } // public bool kpView::mouseOnSelectionToSelectText (const TQPoint &viewPoint) const { #if DEBUG_KP_VIEW kdDebug () << "kpView::mouseOnSelectionToSelectText(viewPoint=" << viewPoint << ")" << endl; #endif if (!mouseOnSelection (viewPoint)) { #if DEBUG_KP_VIEW kdDebug () << "\tmouse non on sel" << endl; #endif return false; } if (!selection ()->isText ()) { #if DEBUG_KP_VIEW kdDebug () << "\tsel not text" << endl; #endif return false; } #if DEBUG_KP_VIEW kdDebug () << "\tmouse on sel: to move=" << mouseOnSelectionToMove () << " to resize=" << mouseOnSelectionResizeHandle () << endl; #endif return (!mouseOnSelectionToMove (viewPoint) && !mouseOnSelectionResizeHandle (viewPoint)); } // protected virtual [base TQWidget] void kpView::mouseMoveEvent (TQMouseEvent *e) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::mouseMoveEvent (" << e->x () << "," << e->y () << ")" << endl; #endif // TODO: This is wrong if you leaveEvent the mainView by mouseMoving on the // mainView, landing on top of the thumbnailView cleverly put on top // of the mainView. setHasMouse (TQT_TQRECT_OBJECT(rect ()).tqcontains (e->pos ())); if (tool ()) tool ()->mouseMoveEvent (e); e->accept (); } // protected virtual [base TQWidget] void kpView::mousePressEvent (TQMouseEvent *e) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::mousePressEvent (" << e->x () << "," << e->y () << ")" << endl; #endif setHasMouse (true); if (tool ()) tool ()->mousePressEvent (e); e->accept (); } // protected virtual [base TQWidget] void kpView::mouseReleaseEvent (TQMouseEvent *e) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::mouseReleaseEvent (" << e->x () << "," << e->y () << ")" << endl; #endif setHasMouse (TQT_TQRECT_OBJECT(rect ()).tqcontains (e->pos ())); if (tool ()) tool ()->mouseReleaseEvent (e); e->accept (); } // public virtual [base TQWidget] void kpView::wheelEvent (TQWheelEvent *e) { if (tool ()) tool ()->wheelEvent (e); } // protected virtual [base TQWidget] void kpView::keyPressEvent (TQKeyEvent *e) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::keyPressEvent()" << endl; #endif if (tool ()) tool ()->keyPressEvent (e); e->accept (); } // protected virtual [base TQWidget] void kpView::keyReleaseEvent (TQKeyEvent *e) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::keyReleaseEvent()" << endl; #endif if (tool ()) tool ()->keyReleaseEvent (e); e->accept (); } // protected virtual [base TQWidget] void kpView::focusInEvent (TQFocusEvent *e) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::focusInEvent()" << endl; #endif if (tool ()) tool ()->focusInEvent (e); } // protected virtual [base TQWidget] void kpView::focusOutEvent (TQFocusEvent *e) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::focusOutEvent()" << endl; #endif if (tool ()) tool ()->focusOutEvent (e); } // protected virtual [base TQWidget] void kpView::enterEvent (TQEvent *e) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::enterEvent()" << endl; #endif // Don't call setHasMouse(true) as it displays the brush cursor (if // active) when dragging open a menu and then dragging // past the extents of the menu due to TQt sending us an EnterEvent. // We're already covered by MouseMoveEvent anyway. // // But disabling this causes a more serious problem: RMB on a text // box and Esc. We have no other reliable way to determine if the // mouse is still above the view (user could have moved mouse out // while RMB menu was up) and hence the cursor is not updated. setHasMouse (true); if (tool ()) tool ()->enterEvent (e); } // protected virtual [base TQWidget] void kpView::leaveEvent (TQEvent *e) { #if DEBUG_KP_VIEW && 0 kdDebug () << "kpView(" << name () << ")::leaveEvent()" << endl; #endif setHasMouse (false); if (tool ()) tool ()->leaveEvent (e); } // protected virtual [base TQWidget] void kpView::dragEnterEvent (TQDragEnterEvent *) { #if DEBUG_KP_VIEW && 1 kdDebug () << "kpView(" << name () << ")::dragEnterEvent()" << endl; #endif setHasMouse (true); } // protected virtual [base TQWidget] void kpView::dragLeaveEvent (TQDragLeaveEvent *) { #if DEBUG_KP_VIEW && 1 kdDebug () << "kpView(" << name () << ")::dragLeaveEvent" << endl; #endif setHasMouse (false); } // public virtual [base TQWidget] void kpView::resize (int w, int h) { #if DEBUG_KP_VIEW && 1 kdDebug () << "kpView(" << name () << ")::resize(" << w << "," << h << ")" << endl; #endif TQWidget::resize (w, h); } // protected virtual [base TQWidget] void kpView::resizeEvent (TQResizeEvent *e) { #if DEBUG_KP_VIEW && 1 kdDebug () << "kpView(" << name () << ")::resizeEvent(" << e->size () << " vs actual=" << size () << ") old=" << e->oldSize () << endl; #endif TQWidget::resizeEvent (e); emit sizeChanged (width (), height ()); emit sizeChanged (size ()); } // private virtual void kpView::imStartEvent (TQIMEvent *e) { #if DEBUG_KP_VIEW && 1 kdDebug () << "kpView(" << name () << ")::imStartEvent" << endl; #endif if (tool ()) tool ()->imStartEvent (e); e->accept(); } // private virtual void kpView::imComposeEvent (TQIMEvent *e) { #if DEBUG_KP_VIEW && 1 kdDebug () << "kpView(" << name () << ")::imComposeEvent" << endl; #endif if (tool ()) tool ()->imComposeEvent (e); e->accept(); } // private virtual void kpView::imEndEvent (TQIMEvent *e) { #if DEBUG_KP_VIEW && 1 kdDebug () << "kpView(" << name () << ")::imEndEvent" << endl; #endif if (tool ()) tool ()->imEndEvent (e); e->accept(); } // // Renderer // // protected TQRect kpView::paintEventGetDocRect (const TQRect &viewRect) const { #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "kpView::paintEventGetDocRect(" << viewRect << ")" << endl; #endif TQRect docRect; // From the "we aren't sure whether to round up or round down" department: if (zoomLevelX () < 100 || zoomLevelY () < 100) docRect = transformViewToDoc (viewRect); else { // think of a grid - you need to fully cover the zoomed-in pixels // when docRect is zoomed back to the view later docRect = TQRect (transformViewToDoc (viewRect.topLeft ()), // round down transformViewToDoc (viewRect.bottomRight ())); // round down } if (zoomLevelX () % 100 || zoomLevelY () % 100) { // at least round up the bottom-right point and deal with matrix weirdness: // - helpful because it ensures we at least cover the required area // at e.g. 67% or 573% // - harmless since paintEventDrawRect() clips for us anyway docRect.setBottomRight (docRect.bottomRight () + TQPoint (2, 2)); } #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tdocRect=" << docRect << endl; #endif kpDocument *doc = document (); if (doc) { docRect = docRect.intersect (doc->rect ()); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tintersect with doc=" << docRect << endl; #endif } return docRect; } // public void kpView::drawTransparentBackground (TQPainter *painter, int /*viewWidth*/, int /*viewHeight*/, const TQRect &rect, bool isPreview) { const int cellSize = !isPreview ? 16 : 10; int starty = rect.y (); if (starty % cellSize) starty -= (starty % cellSize); int startx = rect.x (); if (startx % cellSize) startx -= (startx % cellSize); painter->save (); for (int y = starty; y <= rect.bottom (); y += cellSize) { for (int x = startx; x <= rect.right (); x += cellSize) { bool parity = (x / cellSize + y / cellSize) % 2; TQColor col; if (parity) { if (!isPreview) col = TQColor (213, 213, 213); else col = TQColor (224, 224, 224); } else col = TQt::white; painter->fillRect (x - rect.x (), y - rect.y (), cellSize, cellSize, col); } } painter->restore (); } // protected void kpView::paintEventDrawCheckerBoard (TQPainter *painter, const TQRect &viewRect) { kpDocument *doc = document (); if (!doc) return; drawTransparentBackground (painter, doc->width () * zoomLevelX () / 100, doc->height () * zoomLevelY () / 100, viewRect); } // protected void kpView::paintEventDrawSelection (TQPixmap *destPixmap, const TQRect &docRect) { #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "kpView::paintEventDrawSelection() docRect=" << docRect << endl; #endif kpDocument *doc = document (); if (!doc) { #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tno doc - abort" << endl; #endif return; } kpSelection *sel = doc->selection (); if (!sel) { #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tno sel - abort" << endl; #endif return; } // // Draw selection pixmap (if there is one) // #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tdraw sel pixmap @ " << sel->topLeft () << endl; #endif sel->paint (destPixmap, docRect); // // Draw selection border // kpViewManager *vm = viewManager (); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tsel border visible=" << vm->selectionBorderVisible () << endl; #endif if (vm->selectionBorderVisible ()) { TQPainter destPixmapPainter (destPixmap); destPixmapPainter.setRasterOp (TQt::XorROP); destPixmapPainter.setPen (TQPen (TQt::white, 1, TQt::DotLine)); destPixmapPainter.setBackgroundMode (Qt::OpaqueMode); destPixmapPainter.setBackgroundColor (TQt::blue); TQBitmap tqmaskBitmap; TQPainter tqmaskBitmapPainter; if (destPixmap->tqmask ()) { tqmaskBitmap = *destPixmap->tqmask (); tqmaskBitmapPainter.begin (&tqmaskBitmap); tqmaskBitmapPainter.setPen (TQt::color1/*opaque*/); } #define PAINTER_CMD(cmd) \ { \ destPixmapPainter . cmd; \ if (tqmaskBitmapPainter.isActive ()) \ tqmaskBitmapPainter . cmd; \ } TQRect boundingRect = sel->boundingRect (); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tsel boundingRect=" << boundingRect << endl; #endif if (boundingRect.topLeft () != boundingRect.bottomRight ()) { switch (sel->type ()) { case kpSelection::Rectangle: case kpSelection::Text: #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tselection border = rectangle" << endl; kdDebug () << "\t\tx=" << boundingRect.x () - docRect.x () << " y=" << boundingRect.y () - docRect.y () << " w=" << boundingRect.width () << " h=" << boundingRect.height () << endl; #endif PAINTER_CMD (drawRect (boundingRect.x () - docRect.x (), boundingRect.y () - docRect.y (), boundingRect.width (), boundingRect.height ())); break; case kpSelection::Ellipse: #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tselection border = ellipse" << endl; #endif PAINTER_CMD (drawEllipse (boundingRect.x () - docRect.x (), boundingRect.y () - docRect.y (), boundingRect.width (), boundingRect.height ())); break; case kpSelection::Points: { #if DEBUG_KP_VIEW_RENDERER kdDebug () << "\tselection border = freeForm" << endl; #endif TQPointArray points = sel->points (); points.detach (); points.translate (-docRect.x (), -docRect.y ()); if (vm->selectionBorderFinished ()) { PAINTER_CMD (drawPolygon (points)); } else { PAINTER_CMD (drawPolyline (points)); } break; } default: kdError () << "kpView::paintEventDrawSelection() unknown sel border type" << endl; break; } if (vm->selectionBorderFinished () && (sel->type () == kpSelection::Ellipse || sel->type () == kpSelection::Points)) { destPixmapPainter.save (); destPixmapPainter.setRasterOp (TQt::NotROP); PAINTER_CMD (drawRect (boundingRect.x () - docRect.x (), boundingRect.y () - docRect.y (), boundingRect.width (), boundingRect.height ())); destPixmapPainter.restore (); } } else { // SYNC: Work around TQt bug: can't draw 1x1 rectangle PAINTER_CMD (drawPoint (boundingRect.topLeft () - docRect.topLeft ())); } #undef PAINTER_CMD destPixmapPainter.end (); if (tqmaskBitmapPainter.isActive ()) tqmaskBitmapPainter.end (); destPixmap->setMask (tqmaskBitmap); } // // Draw text cursor // if (sel->isText () && vm->textCursorEnabled () && (vm->textCursorBlinkState () || // For the current main window: // As long as _any_ view has focus, blink _all_ views not just the // one with focus // !this->isActiveWindow () !vm->activeView ())) // sync: call will break when vm is not held by 1 mainWindow { // TODO: Fix code duplication: kpViewManager::{setTextCursorPosition,updateTextCursor}() & kpView::paintEventDrawSelection() TQPoint topLeft = sel->pointForTextRowCol (vm->textCursorRow (), vm->textCursorCol ()); if (topLeft != KP_INVALID_POINT) { TQRect rect = TQRect (topLeft.x (), topLeft.y (), 1, sel->textStyle ().fontMetrics ().height ()); rect = rect.intersect (sel->textAreaRect ()); if (!rect.isEmpty ()) { rect.moveBy (-docRect.x (), -docRect.y ()); TQBitmap tqmaskBitmap; TQPainter destPixmapPainter, tqmaskBitmapPainter; if (destPixmap->tqmask ()) { tqmaskBitmap = *destPixmap->tqmask (); tqmaskBitmapPainter.begin (&tqmaskBitmap); tqmaskBitmapPainter.fillRect (rect, TQt::color1/*opaque*/); tqmaskBitmapPainter.end (); } destPixmapPainter.begin (destPixmap); destPixmapPainter.setRasterOp (TQt::XorROP); destPixmapPainter.fillRect (rect, TQt::white); destPixmapPainter.end (); if (!tqmaskBitmap.isNull ()) destPixmap->setMask (tqmaskBitmap); } } } } // protected bool kpView::selectionResizeHandleAtomicSizeCloseToZoomLevel () const { return (abs (selectionResizeHandleAtomicSize () - zoomLevelX () / 100) < 3); } // protected void kpView::paintEventDrawSelectionResizeHandles (TQPainter *painter, const TQRect &viewRect) { #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "kpView::paintEventDrawSelectionResizeHandles(" << viewRect << ")" << endl; #endif if (!selectionLargeEnoughToHaveResizeHandles ()) { #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tsel not large enough to have resize handles" << endl; #endif return; } kpViewManager *vm = viewManager (); if (!vm || !vm->selectionBorderVisible () || !vm->selectionBorderFinished ()) { #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tsel border not visible or not finished" << endl; #endif return; } const TQRect selViewRect = selectionViewRect (); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tselViewRect=" << selViewRect << endl; #endif if (!selViewRect.intersects (viewRect)) { #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tdoesn't intersect viewRect" << endl; #endif return; } TQRegion selResizeHandlesRegion = selectionResizeHandlesViewRegion (true/*for renderer*/); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tsel resize handles view region=" << selResizeHandlesRegion << endl; #endif selResizeHandlesRegion.translate (-viewRect.x (), -viewRect.y ()); painter->save (); TQColor fillColor; if (selectionResizeHandleAtomicSizeCloseToZoomLevel ()) { fillColor = TQt::blue; painter->setRasterOp (TQt::CopyROP); } else { fillColor = TQt::white; painter->setRasterOp (TQt::XorROP); } TQMemArray rects = selResizeHandlesRegion.tqrects (); for (TQMemArray ::ConstIterator it = rects.begin (); it != rects.end (); it++) { painter->fillRect (*it, fillColor); } painter->restore (); } // protected void kpView::paintEventDrawTempPixmap (TQPixmap *destPixmap, const TQRect &docRect) { kpViewManager *vm = viewManager (); if (!vm) return; const kpTempPixmap *tpm = vm->tempPixmap (); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "kpView::paintEventDrawTempPixmap() tempPixmap=" << tpm << " isVisible=" << (tpm ? tpm->isVisible (vm) : false) << endl; #endif if (!tpm || !tpm->isVisible (vm)) return; tpm->paint (destPixmap, docRect); } // protected void kpView::paintEventDrawGridLines (TQPainter *painter, const TQRect &viewRect) { int hzoomMultiple = zoomLevelX () / 100; int vzoomMultiple = zoomLevelY () / 100; TQPen ordinaryPen (TQt::gray); TQPen tileBoundaryPen (TQt::lightGray); painter->setPen (ordinaryPen); // horizontal lines int starty = viewRect.top (); if (starty % vzoomMultiple) starty = (starty + vzoomMultiple) / vzoomMultiple * vzoomMultiple; int tileHeight = 16 * vzoomMultiple; // CONFIG for (int y = starty - viewRect.y (); y <= viewRect.bottom () - viewRect.y (); y += vzoomMultiple) { if (0 && tileHeight > 0 && y % tileHeight == 0) { painter->setPen (tileBoundaryPen); //painter.setRasterOp (TQt::XorROP); } painter->drawLine (0, y, viewRect.right () - viewRect.left (), y); if (0 && tileHeight > 0 && y % tileHeight == 0) { painter->setPen (ordinaryPen); //painter.setRasterOp (TQt::CopyROP); } } // vertical lines int startx = viewRect.left (); if (startx % hzoomMultiple) startx = (startx + hzoomMultiple) / hzoomMultiple * hzoomMultiple; int tileWidth = 16 * hzoomMultiple; // CONFIG for (int x = startx - viewRect.x (); x <= viewRect.right () - viewRect.x (); x += hzoomMultiple) { if (0 && tileWidth > 0 && x % tileWidth == 0) { painter->setPen (tileBoundaryPen); //painter.setRasterOp (TQt::XorROP); } painter->drawLine (x, 0, x, viewRect.bottom () - viewRect.top ()); if (0 && tileWidth > 0 && x % tileWidth == 0) { painter->setPen (ordinaryPen); //painter.setRasterOp (TQt::CopyROP); } } } void kpView::paintEventDrawRect (const TQRect &viewRect) { #if DEBUG_KP_VIEW_RENDERER kdDebug () << "\tkpView::paintEventDrawRect(viewRect=" << viewRect << ")" << endl; #endif kpViewManager *vm = viewManager (); const kpDocument *doc = document (); if (!vm || !doc) return; if (viewRect.isEmpty ()) return; TQRect docRect = paintEventGetDocRect (viewRect); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tdocRect=" << docRect << endl; #endif // uncomment to cause deliberate flicker (identifies needless updates) #if DEBUG_KP_VIEW_RENDERER && 0 TQPainter flickerPainter (this); flickerPainter.fillRect (viewRect, TQt::red); flickerPainter.end (); #endif // // Prepare Back Buffer // if (!d->m_backBuffer || d->m_backBuffer->width () < viewRect.width () || d->m_backBuffer->height () < viewRect.height () || d->m_backBuffer->width () > width () || d->m_backBuffer->height () > height ()) { // don't use TQPixmap::resize() as that wastes time copying pixels // that will be overwritten anyway // // OPT: Should use doubling trick or at least go up in multiples // to reduce X server pressure. delete d->m_backBuffer; d->m_backBuffer = new TQPixmap (viewRect.width (), viewRect.height ()); } // uncomment to catch bits of the view that the renderer forgot to update #if 0 d->m_backBuffer->fill (TQt::green); #endif TQPainter backBufferPainter; backBufferPainter.begin (d->m_backBuffer); // // Draw checkboard for transparent images and/or views with borders // TQPixmap docPixmap; bool tempPixmapWillBeRendered = false; if (!docRect.isEmpty ()) { docPixmap = doc->getPixmapAt (docRect); tempPixmapWillBeRendered = (!doc->selection () && vm->tempPixmap () && vm->tempPixmap ()->isVisible (vm) && docRect.intersects (vm->tempPixmap ()->rect ())); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\ttempPixmapWillBeRendered=" << tempPixmapWillBeRendered << " (sel=" << doc->selection () << " tempPixmap=" << vm->tempPixmap () << " tempPixmap.isVisible=" << (vm->tempPixmap () ? vm->tempPixmap ()->isVisible (vm) : false) << " docRect.intersects(tempPixmap.rect)=" << (vm->tempPixmap () ? docRect.intersects (vm->tempPixmap ()->rect ()) : false) << ")" << endl; #endif } if (docPixmap.tqmask () || (tempPixmapWillBeRendered && vm->tempPixmap ()->mayChangeDocumentMask ())) { #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\ttqmask=" << (bool) docPixmap.tqmask () << endl; #endif paintEventDrawCheckerBoard (&backBufferPainter, viewRect); } else { #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tno tqmask" << endl; #endif } if (!docRect.isEmpty ()) { // // Draw docPixmap + tempPixmap // if (doc->selection ()) { paintEventDrawSelection (&docPixmap, docRect); } else if (tempPixmapWillBeRendered) { paintEventDrawTempPixmap (&docPixmap, docRect); } #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\torigin=" << origin () << endl; #endif // blit scaled version of docPixmap + tempPixmap onto Back Buffer #if DEBUG_KP_VIEW_RENDERER && 1 TQTime scaleTimer; scaleTimer.start (); #endif backBufferPainter.translate (origin ().x () - viewRect.x (), origin ().y () - viewRect.y ()); backBufferPainter.scale (double (zoomLevelX ()) / 100.0, double (zoomLevelY ()) / 100.0); backBufferPainter.drawPixmap (docRect, docPixmap); backBufferPainter.resetXForm (); // back to 1-1 scaling #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tscale time=" << scaleTimer.elapsed () << endl; #endif } // if (!docRect.isEmpty ()) { // // Draw Grid Lines // if (isGridShown ()) { #if DEBUG_KP_VIEW_RENDERER && 1 TQTime gridTimer; gridTimer.start (); #endif paintEventDrawGridLines (&backBufferPainter, viewRect); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tgrid time=" << gridTimer.elapsed () << endl; #endif } const TQRect bvsvRect = buddyViewScrollableContainerRectangle (); if (!bvsvRect.isEmpty ()) { backBufferPainter.save (); backBufferPainter.setRasterOp (TQt::XorROP); backBufferPainter.setPen (TQt::white); backBufferPainter.translate (-viewRect.x (), -viewRect.y ()); backBufferPainter.drawRect (bvsvRect); backBufferPainter.restore (); } if (!docRect.isEmpty ()) { if (doc->selection ()) { // Draw resize handles on top of possible grid lines paintEventDrawSelectionResizeHandles (&backBufferPainter, viewRect); } } // // Blit Back Buffer to View // backBufferPainter.end (); bitBlt (this, viewRect.topLeft (), d->m_backBuffer, TQRect (0, 0, viewRect.width (), viewRect.height ())); } // protected virtual [base TQWidget] void kpView::paintEvent (TQPaintEvent *e) { // sync: kpViewPrivate // WARNING: document(), viewManager() and friends might be 0 in this method. // TODO: I'm not 100% convinced that we always check if their friends are 0. #if DEBUG_KP_VIEW_RENDERER && 1 TQTime timer; timer.start (); #endif kpViewManager *vm = viewManager (); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "kpView(" << name () << ")::paintEvent() vm=" << (bool) vm << " queueUpdates=" << (vm && vm->queueUpdates ()) << " fastUpdates=" << (vm && vm->fastUpdates ()) << " viewRect=" << e->rect () << " erased=" << e->erased () << " topLeft=" << TQPoint (x (), y ()) << endl; #endif if (!vm) return; if (vm->queueUpdates ()) { // OPT: if this update was due to the document, // use document coordinates (in case of a zoom change in // which view coordinates become out of date) addToQueuedArea (e->region ()); return; } TQRegion viewRegion = clipRegion ().intersect (e->region ()); TQMemArray rects = viewRegion.tqrects (); #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\t#rects = " << rects.count () << endl; #endif for (TQMemArray ::ConstIterator it = rects.begin (); it != rects.end (); it++) { paintEventDrawRect (*it); } #if DEBUG_KP_VIEW_RENDERER && 1 kdDebug () << "\tall done in: " << timer.restart () << "ms" << endl; #endif } #include