/** * This file is part of the DOM implementation for KDE. * * Copyright (C) 1999-2003 Lars Knoll (knoll@kde.org) * (C) 1999 Antti Koivisto (koivisto@kde.org) * (C) 2000-2003 Dirk Mueller (mueller@kde.org) * (C) 2003 Apple Computer, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. * */ //#define DEBUG_LAYOUT #include "render_image.h" #include "render_canvas.h" #include #include #include #include #include #include "css/csshelper.h" #include "misc/helper.h" #include "misc/htmlattrs.h" #include "misc/loader.h" #include "misc/svgrender.h" #include "misc/htmltags.h" #include "html/html_formimpl.h" #include "html/html_imageimpl.h" #include "html/dtd.h" #include "xml/dom2_eventsimpl.h" #include "html/html_documentimpl.h" #include "html/html_objectimpl.h" #include "tdehtmlview.h" #include "tdehtml_part.h" #include #include "loading_icon.cpp" using namespace DOM; using namespace tdehtml; // ------------------------------------------------------------------------- RenderImage::RenderImage(NodeImpl *_element) : RenderReplaced(_element) { m_oldImage = m_cachedImage = 0; m_selectionState = SelectionNone; berrorPic = false; const TDEHTMLSettings *settings = _element->getDocument()->view()->part()->settings(); bUnfinishedImageFrame = settings->unfinishedImageFrame(); setIntrinsicWidth( 0 ); setIntrinsicHeight( 0 ); } RenderImage::~RenderImage() { if(m_cachedImage) m_cachedImage->deref( this ); if(m_oldImage) m_oldImage->deref( this ); } TQPixmap RenderImage::pixmap() const { return m_cachedImage ? m_cachedImage->pixmap() : TQPixmap(); } void RenderImage::setStyle(RenderStyle* _style) { RenderReplaced::setStyle(_style); // init RenderObject attributes //setOverhangingContents(style()->height().isPercent()); setShouldPaintBackgroundOrBorder(true); } void RenderImage::setContentObject(CachedObject* co ) { if (co && m_cachedImage != co) updateImage( static_cast( co ) ); } void RenderImage::setPixmap( const TQPixmap &p, const TQRect& r, CachedImage *o) { if ( o == m_oldImage ) return; if(o != m_cachedImage) { RenderReplaced::setPixmap(p, r, o); return; } bool iwchanged = false; if(o->isErrorImage()) { int iw = p.width() + 8; int ih = p.height() + 8; // we have an alt and the user meant it (its not a text we invented) if ( element() && !alt.isEmpty() && !element()->getAttribute( ATTR_ALT ).isNull()) { const TQFontMetrics &fm = style()->fontMetrics(); TQRect br = fm.boundingRect ( 0, 0, 1024, 256, TQt::AlignAuto|TQt::WordBreak, alt.string() ); if ( br.width() > iw ) iw = br.width(); if ( br.height() > ih ) ih = br.height(); } if ( iw != intrinsicWidth() ) { setIntrinsicWidth( iw ); iwchanged = true; } if ( ih != intrinsicHeight() ) { setIntrinsicHeight( ih ); iwchanged = true; } if ( element() && element()->id() == ID_OBJECT ) { static_cast( element() )->renderAlternative(); return; } } berrorPic = o->isErrorImage(); bool needlayout = false; // Image dimensions have been changed, see what needs to be done if( o->pixmap_size().width() != intrinsicWidth() || o->pixmap_size().height() != intrinsicHeight() || iwchanged ) { // tqDebug("image dimensions have been changed, old: %d/%d new: %d/%d", // intrinsicWidth(), intrinsicHeight(), // o->pixmap_size().width(), o->pixmap_size().height()); if(!o->isErrorImage()) { setIntrinsicWidth( o->pixmap_size().width() ); setIntrinsicHeight( o->pixmap_size().height() ); } // lets see if we need to relayout at all.. int oldwidth = m_width; int oldheight = m_height; int oldminwidth = m_minWidth; m_minWidth = 0; if ( parent() ) { calcWidth(); calcHeight(); } if(iwchanged || m_width != oldwidth || m_height != oldheight) needlayout = true; m_minWidth = oldminwidth; m_width = oldwidth; m_height = oldheight; } // we're not fully integrated in the tree yet.. we'll come back. if ( !parent() ) return; if(needlayout) { if (!selfNeedsLayout()) setNeedsLayout(true); if (minMaxKnown()) setMinMaxKnown(false); } else { bool completeRepaint = !resizeCache.isNull(); int cHeight = contentHeight(); int scaledHeight = intrinsicHeight() ? ((o->valid_rect().height()*cHeight)/intrinsicHeight()) : 0; // don't bog down X server doing xforms if(completeRepaint && cHeight >= 5 && o->valid_rect().height() < intrinsicHeight() && (scaledHeight / (cHeight/5) == resizeCache.height() / (cHeight/5))) return; resizeCache = TQPixmap(); // for resized animations if(completeRepaint) repaintRectangle(borderLeft()+paddingLeft(), borderTop()+paddingTop(), contentWidth(), contentHeight()); else { repaintRectangle(r.x() + borderLeft() + paddingLeft(), r.y() + borderTop() + paddingTop(), r.width(), r.height()); } } } void RenderImage::paint(PaintInfo& paintInfo, int _tx, int _ty) { if (paintInfo.phase == PaintActionOutline && style()->outlineWidth() && style()->visibility() == VISIBLE) paintOutline(paintInfo.p, _tx + m_x, _ty + m_y, width(), height(), style()); if (paintInfo.phase != PaintActionForeground && paintInfo.phase != PaintActionSelection) return; // not visible or not even once layouted? if (style()->visibility() != VISIBLE || m_y <= -500000) return; _tx += m_x; _ty += m_y; if((_ty > paintInfo.r.bottom()) || (_ty + m_height <= paintInfo.r.top())) return; if(shouldPaintBackgroundOrBorder()) paintBoxDecorations(paintInfo, _tx, _ty); int cWidth = contentWidth(); int cHeight = contentHeight(); int leftBorder = borderLeft(); int topBorder = borderTop(); int leftPad = paddingLeft(); int topPad = paddingTop(); if (!canvas()->printImages()) return; CachedImage* i = m_oldImage && m_oldImage->valid_rect().size() == m_oldImage->pixmap_size() && m_oldImage->pixmap_size().width() == intrinsicWidth() && m_oldImage->pixmap_size().height() == intrinsicHeight() ? m_oldImage : m_cachedImage; // paint frame around image as long as it is not completely loaded from web. if (bUnfinishedImageFrame && paintInfo.phase == PaintActionForeground && cWidth > 2 && cHeight > 2 && !complete() && !(i && i->isVectorImage())) { static TQPixmap *loadingIcon; TQColor bg = tdehtml::retrieveBackgroundColor(this); TQColor fg = tdehtml::hasSufficientContrast(Qt::gray, bg) ? Qt::gray : (hasSufficientContrast(Qt::white, bg) ? Qt::white : Qt::black); paintInfo.p->setPen(TQPen(fg, 1)); paintInfo.p->setBrush( Qt::NoBrush ); paintInfo.p->drawRect(_tx, _ty, m_width, m_height); if (!(m_width <= 5 || m_height <= 5)) { if (!loadingIcon) { loadingIcon = new TQPixmap(); loadingIcon->loadFromData(loading_icon_data, loading_icon_len); } paintInfo.p->drawPixmap(_tx + 4, _ty + 4, *loadingIcon, 0, 0, m_width - 5, m_height - 5); } } //kdDebug( 6040 ) << " contents (" << contentWidth << "/" << contentHeight << ") border=" << borderLeft() << " padding=" << paddingLeft() << endl; if ( !i || berrorPic) { if(cWidth > 2 && cHeight > 2) { if ( !berrorPic ) { //tqDebug("qDrawShadePanel %d/%d/%d/%d", _tx + leftBorder, _ty + topBorder, cWidth, cHeight); qDrawShadePanel( paintInfo.p, _tx + leftBorder + leftPad, _ty + topBorder + topPad, cWidth, cHeight, TDEApplication::palette().inactive(), true, 1 ); } TQPixmap const* pix = i ? &i->pixmap() : 0; if(berrorPic && pix && (cWidth >= pix->width()+4) && (cHeight >= pix->height()+4) ) { TQRect r(pix->rect()); r = r.intersect(TQRect(0, 0, cWidth-4, cHeight-4)); paintInfo.p->drawPixmap( TQPoint( _tx + leftBorder + leftPad+2, _ty + topBorder + topPad+2), *pix, r ); } if(!alt.isEmpty()) { TQString text = alt.string(); paintInfo.p->setFont(style()->font()); paintInfo.p->setPen( style()->color() ); int ax = _tx + leftBorder + leftPad + 2; int ay = _ty + topBorder + topPad + 2; const TQFontMetrics &fm = style()->fontMetrics(); if (cWidth>5 && cHeight>=fm.height()) paintInfo.p->drawText(ax, ay+1, cWidth - 4, cHeight - 4, TQt::WordBreak, text ); } } } else if (i && !i->isTransparent()) { paintInfo.p->setPen( Qt::black ); // used for bitmaps const TQPixmap& pix = i->pixmap(); if ( (cWidth != intrinsicWidth() || cHeight != intrinsicHeight()) && pix.width() > 0 && pix.height() > 0 && i->valid_rect().isValid()) { if (resizeCache.isNull() && cWidth && cHeight && intrinsicWidth() && intrinsicHeight()) { TQRect scaledrect(i->valid_rect()); scaledrect.setWidth( ( cWidth*scaledrect.width() ) / intrinsicWidth() ); scaledrect.setHeight( ( cHeight*scaledrect.height() ) / intrinsicHeight() ); // kdDebug(6040) << "time elapsed: " << dt->elapsed() << endl; // kdDebug( 6040 ) << "have to scale: " << endl; // tqDebug("cw=%d ch=%d pw=%d ph=%d rcw=%d, rch=%d", // cWidth, cHeight, intrinsicWidth(), intrinsicHeight(), resizeCache.width(), resizeCache.height()); if(i->isVectorImage()) { TQImage newRender = renderSVG(i->svg(), i->svgExtension(), cWidth, cHeight); if(!resizeCache.convertFromImage(newRender)) { kdDebug(6040) << "Could not convert TQImage of rendered SVG to TQPixmap!" << endl; } } else { TQWMatrix matrix; matrix.scale( (float)(cWidth)/intrinsicWidth(), (float)(cHeight)/intrinsicHeight() ); resizeCache = pix.xForm( matrix ); // tqDebug("resizeCache size: %d/%d", resizeCache.width(), resizeCache.height()); // tqDebug("valid: %d/%d, scaled: %d/%d", // i->valid_rect().width(), i->valid_rect().height(), // scaledrect.width(), scaledrect.height()); // sometimes scaledrect.width/height are off by one because // of rounding errors. if the i is fully loaded, we // make sure that we don't do unnecessary resizes during painting TQSize s(scaledrect.size()); if(i->valid_rect().size() == TQSize( intrinsicWidth(), intrinsicHeight() )) // fully loaded s = TQSize(cWidth, cHeight); if(kAbs(s.width() - cWidth) < 2) // rounding errors s.setWidth(cWidth); if(resizeCache.size() != s) resizeCache.resize(s); } paintInfo.p->drawPixmap( TQPoint( _tx + leftBorder + leftPad, _ty + topBorder + topPad), resizeCache, scaledrect ); } else paintInfo.p->drawPixmap( TQPoint( _tx + leftBorder + leftPad, _ty + topBorder + topPad), resizeCache ); } else { // we might be just about switching images TQRect rect(i->valid_rect().isValid() ? i->valid_rect() : TQRect(0, 0, intrinsicWidth(), intrinsicHeight())); TQPoint offs( _tx + leftBorder + leftPad, _ty + topBorder + topPad); // tqDebug("normal paint rect %d/%d/%d/%d", rect.x(), rect.y(), rect.width(), rect.height()); // rect = rect & TQRect( 0 , y - offs.y() - 10, w, 10 + y + h - offs.y()); // tqDebug("normal paint rect after %d/%d/%d/%d", rect.x(), rect.y(), rect.width(), rect.height()); // tqDebug("normal paint: offs.y(): %d, y: %d, diff: %d", offs.y(), y, y - offs.y()); // tqDebug(""); // p->setClipRect(TQRect(x,y,w,h)); // p->drawPixmap( offs.x(), y, pix, rect.x(), rect.y(), rect.width(), rect.height() ); paintInfo.p->drawPixmap(offs, pix, rect); } } if (m_selectionState != SelectionNone) { // kdDebug(6040) << "_tx " << _tx << " _ty " << _ty << " _x " << _x << " _y " << _y << endl; // Draw in any case if inside selection. For selection borders, the // offset will decide whether to draw selection or not bool draw = true; if (m_selectionState != SelectionInside) { int startPos, endPos; selectionStartEnd(startPos, endPos); if(selectionState() == SelectionStart) endPos = 1; else if(selectionState() == SelectionEnd) startPos = 0; draw = endPos - startPos > 0; } if (draw) { // setting the brush origin is important for compatibility, // don't touch it unless you know what you're doing paintInfo.p->setBrushOrigin(_tx, _ty - paintInfo.r.y()); paintInfo.p->fillRect(_tx, _ty, width(), height(), TQBrush(style()->palette().active().highlight(), Qt::Dense4Pattern)); } } } void RenderImage::layout() { TDEHTMLAssert( needsLayout()); TDEHTMLAssert( minMaxKnown() ); short oldwidth = m_width; int oldheight = m_height; // minimum height m_height = m_cachedImage && m_cachedImage->isErrorImage() ? intrinsicHeight() : 0; calcWidth(); calcHeight(); // if they are variable width and we calculate a huge height or width, we assume they // actually wanted the intrinsic width. if ( m_width > 4096 && !style()->width().isFixed() ) m_width = intrinsicWidth() + paddingLeft() + paddingRight() + borderLeft() + borderRight(); if ( m_height > 2048 && !style()->height().isFixed() ) m_height = intrinsicHeight() + paddingTop() + paddingBottom() + borderTop() + borderBottom(); // limit total size to not run out of memory when doing the xform call. if ( ( m_width * m_height > 4096*2048 ) && ( contentWidth() > intrinsicWidth() || contentHeight() > intrinsicHeight() ) ) { float scale = sqrt( m_width*m_height / ( 4096.*2048. ) ); m_width = (int) (m_width/scale); m_height = (int) (m_height/scale); } if ( m_width != oldwidth || m_height != oldheight ) resizeCache = TQPixmap(); setNeedsLayout(false); } void RenderImage::notifyFinished(CachedObject *finishedObj) { if ( ( m_cachedImage == finishedObj || m_oldImage == finishedObj ) && m_oldImage ) { m_oldImage->deref( this ); m_oldImage = 0; repaint(); } RenderReplaced::notifyFinished(finishedObj); } bool RenderImage::nodeAtPoint(NodeInfo& info, int _x, int _y, int _tx, int _ty, HitTestAction hitTestAction, bool inside) { inside |= RenderReplaced::nodeAtPoint(info, _x, _y, _tx, _ty, hitTestAction, inside); if (inside && element()) { int tx = _tx + m_x; int ty = _ty + m_y; if (isRelPositioned()) relativePositionOffset(tx, ty); HTMLImageElementImpl* i = element()->id() == ID_IMG ? static_cast(element()) : 0; HTMLMapElementImpl* map; if (i && i->getDocument()->isHTMLDocument() && (map = static_cast(i->getDocument())->getMap(i->imageMap()))) { // we're a client side image map inside = map->mapMouseEvent(_x - tx, _y - ty, contentWidth(), contentHeight(), info); info.setInnerNonSharedNode(element()); } } return inside; } void RenderImage::updateImage(CachedImage* new_image) { CachedImage* tempimage = m_oldImage; m_oldImage = m_cachedImage; m_cachedImage = new_image; assert( m_cachedImage != m_oldImage ); if ( m_cachedImage ) m_cachedImage->ref(this); if ( tempimage ) tempimage->deref(this); // if the loading finishes we might get an error and then the image is deleted if ( m_cachedImage ) berrorPic = m_cachedImage->isErrorImage(); else berrorPic = true; } void RenderImage::updateFromElement() { if (element()->id() == ID_INPUT) alt = static_cast(element())->altText(); else if (element()->id() == ID_IMG) alt = static_cast(element())->altText(); DOMString u = element()->id() == ID_OBJECT ? element()->getAttribute(ATTR_DATA) : element()->getAttribute(ATTR_SRC); if (!u.isEmpty() && ( !m_cachedImage || m_cachedImage->url() != u ) ) { CachedImage *new_image = element()->getDocument()->docLoader()-> requestImage(tdehtml::parseURL(u)); if(new_image && new_image != m_cachedImage) updateImage( new_image ); } } bool RenderImage::complete() const { // "complete" means that the image has been loaded // but also that its width/height (contentWidth(),contentHeight()) have been calculated. return m_cachedImage && m_cachedImage->valid_rect().size() == m_cachedImage->pixmap_size() && !needsLayout(); } bool RenderImage::isWidthSpecified() const { switch (style()->width().type()) { case Fixed: case Percent: return true; default: return false; } assert(false); return false; } bool RenderImage::isHeightSpecified() const { switch (style()->height().type()) { case Fixed: case Percent: return true; default: return false; } assert(false); return false; } short RenderImage::calcAspectRatioWidth() const { if (intrinsicHeight() == 0) return 0; if (!m_cachedImage || m_cachedImage->isErrorImage()) return intrinsicWidth(); // Don't bother scaling. return RenderReplaced::calcReplacedHeight() * intrinsicWidth() / intrinsicHeight(); } int RenderImage::calcAspectRatioHeight() const { if (intrinsicWidth() == 0) return 0; if (!m_cachedImage || m_cachedImage->isErrorImage()) return intrinsicHeight(); // Don't bother scaling. return RenderReplaced::calcReplacedWidth() * intrinsicHeight() / intrinsicWidth(); } short RenderImage::calcReplacedWidth() const { int width; if (isWidthSpecified()) width = calcReplacedWidthUsing(Width); else width = calcAspectRatioWidth(); int minW = calcReplacedWidthUsing(MinWidth); int maxW = style()->maxWidth().value() == UNDEFINED ? width : calcReplacedWidthUsing(MaxWidth); if (width > maxW) width = maxW; if (width < minW) width = minW; return width; } int RenderImage::calcReplacedHeight() const { int height; if (isHeightSpecified()) height = calcReplacedHeightUsing(Height); else height = calcAspectRatioHeight(); int minH = calcReplacedHeightUsing(MinHeight); int maxH = style()->maxHeight().value() == UNDEFINED ? height : calcReplacedHeightUsing(MaxHeight); if (height > maxH) height = maxH; if (height < minH) height = minH; return height; } #if 0 void RenderImage::caretPos(int offset, int flags, int &_x, int &_y, int &width, int &height) { RenderReplaced::caretPos(offset, flags, _x, _y, width, height); #if 0 // doesn't work reliably height = intrinsicHeight(); width = override && offset == 0 ? intrinsicWidth() : 0; _x = xPos(); _y = yPos(); if (offset > 0) _x += intrinsicWidth(); RenderObject *cb = containingBlock(); int absx, absy; if (cb && cb != this && cb->absolutePosition(absx,absy)) { _x += absx; _y += absy; } else { // we don't know our absolute position, and there is no point returning // just a relative one _x = _y = -1; } #endif } #endif