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/*
* Copyright (C) 1999 Lars Knoll (knoll@kde.org)
* (C) 1999 Antti Koivisto (koivisto@kde.org)
* (C) 2000 Dirk Mueller (mueller@kde.org)
* (C) 2006 Allan Sandfeld Jensen (kde@carewolf.com)
* (C) 2006 Samuel Weinig (sam.weinig@gmail.com)
* Copyright (C) 2003, 2004, 2005, 2006, 2008 Apple Inc. All rights reserved.
*
* 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.
*
*/
#include "config.h"
#include "RenderImage.h"
#include "BitmapImage.h"
#include "Document.h"
#include "FrameView.h"
#include "GraphicsContext.h"
#include "HTMLImageElement.h"
#include "HTMLInputElement.h"
#include "HTMLMapElement.h"
#include "HTMLNames.h"
#include "HitTestResult.h"
#include "Page.h"
#include "RenderView.h"
#include <wtf/CurrentTime.h>
#include <wtf/UnusedParam.h>
#if ENABLE(WML)
#include "WMLImageElement.h"
#include "WMLNames.h"
#endif
using namespace std;
namespace WebCore {
static const double cInterpolationCutoff = 800. * 800.;
static const double cLowQualityTimeThreshold = 0.050; // 50 ms
class RenderImageScaleData {
public:
RenderImageScaleData(RenderImage* image, const IntSize& size, double time, bool lowQualityScale)
: m_size(size)
, m_time(time)
, m_lowQualityScale(lowQualityScale)
, m_highQualityRepaintTimer(image, &RenderImage::highQualityRepaintTimerFired)
{
}
~RenderImageScaleData()
{
m_highQualityRepaintTimer.stop();
}
const IntSize& size() const { return m_size; }
double time() const { return m_time; }
bool useLowQualityScale() const { return m_lowQualityScale; }
Timer<RenderImage>& hiqhQualityRepaintTimer() { return m_highQualityRepaintTimer; }
void setSize(const IntSize& s) { m_size = s; }
void setTime(double t) { m_time = t; }
void setUseLowQualityScale(bool b)
{
m_highQualityRepaintTimer.stop();
m_lowQualityScale = b;
if (b)
m_highQualityRepaintTimer.startOneShot(cLowQualityTimeThreshold);
}
private:
IntSize m_size;
double m_time;
bool m_lowQualityScale;
Timer<RenderImage> m_highQualityRepaintTimer;
};
class RenderImageScaleObserver {
public:
static bool shouldImagePaintAtLowQuality(RenderImage*, const IntSize&);
static void imageDestroyed(RenderImage* image)
{
if (gImages) {
RenderImageScaleData* data = gImages->take(image);
delete data;
if (gImages->size() == 0) {
delete gImages;
gImages = 0;
}
}
}
static void highQualityRepaintTimerFired(RenderImage* image)
{
RenderImageScaleObserver::imageDestroyed(image);
image->repaint();
}
static HashMap<RenderImage*, RenderImageScaleData*>* gImages;
};
bool RenderImageScaleObserver::shouldImagePaintAtLowQuality(RenderImage* image, const IntSize& size)
{
// If the image is not a bitmap image, then none of this is relevant and we just paint at high
// quality.
if (!image->image() || !image->image()->isBitmapImage())
return false;
// Make sure to use the unzoomed image size, since if a full page zoom is in effect, the image
// is actually being scaled.
IntSize imageSize(image->image()->width(), image->image()->height());
// Look ourselves up in the hashtable.
RenderImageScaleData* data = 0;
if (gImages)
data = gImages->get(image);
if (imageSize == size) {
// There is no scale in effect. If we had a scale in effect before, we can just delete this data.
if (data) {
gImages->remove(image);
delete data;
}
return false;
}
// There is no need to hash scaled images that always use low quality mode when the page demands it. This is the iChat case.
if (image->document()->page()->inLowQualityImageInterpolationMode()) {
double totalPixels = static_cast<double>(image->image()->width()) * static_cast<double>(image->image()->height());
if (totalPixels > cInterpolationCutoff)
return true;
}
// If there is no data yet, we will paint the first scale at high quality and record the paint time in case a second scale happens
// very soon.
if (!data) {
data = new RenderImageScaleData(image, size, currentTime(), false);
if (!gImages)
gImages = new HashMap<RenderImage*, RenderImageScaleData*>;
gImages->set(image, data);
return false;
}
// We are scaled, but we painted already at this size, so just keep using whatever mode we last painted with.
if (data->size() == size)
return data->useLowQualityScale();
// We have data and our size just changed. If this change happened quickly, go into low quality mode and then set a repaint
// timer to paint in high quality mode. Otherwise it is ok to just paint in high quality mode.
double newTime = currentTime();
data->setUseLowQualityScale(newTime - data->time() < cLowQualityTimeThreshold);
data->setTime(newTime);
data->setSize(size);
return data->useLowQualityScale();
}
HashMap<RenderImage*, RenderImageScaleData*>* RenderImageScaleObserver::gImages = 0;
void RenderImage::highQualityRepaintTimerFired(Timer<RenderImage>*)
{
RenderImageScaleObserver::highQualityRepaintTimerFired(this);
}
using namespace HTMLNames;
RenderImage::RenderImage(Node* node)
: RenderReplaced(node, IntSize(0, 0))
, m_cachedImage(0)
{
updateAltText();
view()->frameView()->setIsVisuallyNonEmpty();
}
RenderImage::~RenderImage()
{
if (m_cachedImage)
m_cachedImage->removeClient(this);
RenderImageScaleObserver::imageDestroyed(this);
}
void RenderImage::setCachedImage(CachedImage* newImage)
{
if (m_cachedImage == newImage)
return;
if (m_cachedImage)
m_cachedImage->removeClient(this);
m_cachedImage = newImage;
if (m_cachedImage) {
m_cachedImage->addClient(this);
if (m_cachedImage->errorOccurred())
imageChanged(m_cachedImage.get());
}
}
// If we'll be displaying either alt text or an image, add some padding.
static const unsigned short paddingWidth = 4;
static const unsigned short paddingHeight = 4;
// Alt text is restricted to this maximum size, in pixels. These are
// signed integers because they are compared with other signed values.
static const int maxAltTextWidth = 1024;
static const int maxAltTextHeight = 256;
// Sets the image height and width to fit the alt text. Returns true if the
// image size changed.
bool RenderImage::setImageSizeForAltText(CachedImage* newImage /* = 0 */)
{
int imageWidth = 0;
int imageHeight = 0;
// If we'll be displaying either text or an image, add a little padding.
if (!m_altText.isEmpty() || newImage) {
imageWidth = paddingWidth;
imageHeight = paddingHeight;
}
if (newImage) {
// imageSize() returns 0 for the error image. We need the true size of the
// error image, so we have to get it by grabbing image() directly.
imageWidth += newImage->image()->width() * style()->effectiveZoom();
imageHeight += newImage->image()->height() * style()->effectiveZoom();
}
// we have an alt and the user meant it (its not a text we invented)
if (!m_altText.isEmpty()) {
const Font& font = style()->font();
imageWidth = max(imageWidth, min(font.width(TextRun(m_altText.characters(), m_altText.length())), maxAltTextWidth));
imageHeight = max(imageHeight, min(font.height(), maxAltTextHeight));
}
IntSize imageSize = IntSize(imageWidth, imageHeight);
if (imageSize == intrinsicSize())
return false;
setIntrinsicSize(imageSize);
return true;
}
void RenderImage::imageChanged(WrappedImagePtr newImage, const IntRect* rect)
{
if (documentBeingDestroyed())
return;
if (hasBoxDecorations() || hasMask())
RenderReplaced::imageChanged(newImage, rect);
if (newImage != imagePtr() || !newImage)
return;
bool imageSizeChanged = false;
// Set image dimensions, taking into account the size of the alt text.
if (errorOccurred())
imageSizeChanged = setImageSizeForAltText(m_cachedImage.get());
bool shouldRepaint = true;
// Image dimensions have been changed, see what needs to be done
if (imageSize(style()->effectiveZoom()) != intrinsicSize() || imageSizeChanged) {
if (!errorOccurred())
setIntrinsicSize(imageSize(style()->effectiveZoom()));
// In the case of generated image content using :before/:after, we might not be in the
// render tree yet. In that case, we don't need to worry about check for layout, since we'll get a
// layout when we get added in to the render tree hierarchy later.
if (containingBlock()) {
// lets see if we need to relayout at all..
int oldwidth = width();
int oldheight = height();
if (!prefWidthsDirty())
setPrefWidthsDirty(true);
calcWidth();
calcHeight();
if (imageSizeChanged || width() != oldwidth || height() != oldheight) {
shouldRepaint = false;
if (!selfNeedsLayout())
setNeedsLayout(true);
}
setWidth(oldwidth);
setHeight(oldheight);
}
}
if (shouldRepaint) {
IntRect repaintRect;
if (rect) {
// The image changed rect is in source image coordinates (pre-zooming),
// so map from the bounds of the image to the contentsBox.
repaintRect = enclosingIntRect(mapRect(*rect, FloatRect(FloatPoint(), imageSize(1.0f)), contentBoxRect()));
// Guard against too-large changed rects.
repaintRect.intersect(contentBoxRect());
} else
repaintRect = contentBoxRect();
repaintRectangle(repaintRect);
#if USE(ACCELERATED_COMPOSITING)
if (hasLayer()) {
// Tell any potential compositing layers that the image needs updating.
layer()->rendererContentChanged();
}
#endif
}
}
void RenderImage::notifyFinished(CachedResource* newImage)
{
if (documentBeingDestroyed())
return;
#if USE(ACCELERATED_COMPOSITING)
if ((newImage == m_cachedImage) && hasLayer()) {
// tell any potential compositing layers
// that the image is done and they can reference it directly.
layer()->rendererContentChanged();
}
#else
UNUSED_PARAM(newImage);
#endif
}
void RenderImage::resetAnimation()
{
if (m_cachedImage) {
image()->resetAnimation();
if (!needsLayout())
repaint();
}
}
void RenderImage::paintReplaced(PaintInfo& paintInfo, int tx, int ty)
{
int cWidth = contentWidth();
int cHeight = contentHeight();
int leftBorder = borderLeft();
int topBorder = borderTop();
int leftPad = paddingLeft();
int topPad = paddingTop();
if (document()->printing() && !view()->printImages())
return;
GraphicsContext* context = paintInfo.context;
if (!hasImage() || errorOccurred()) {
if (paintInfo.phase == PaintPhaseSelection)
return;
if (cWidth > 2 && cHeight > 2) {
// Draw an outline rect where the image should be.
context->setStrokeStyle(SolidStroke);
context->setStrokeColor(Color::lightGray);
context->setFillColor(Color::transparent);
context->drawRect(IntRect(tx + leftBorder + leftPad, ty + topBorder + topPad, cWidth, cHeight));
bool errorPictureDrawn = false;
int imageX = 0;
int imageY = 0;
// When calculating the usable dimensions, exclude the pixels of
// the ouline rect so the error image/alt text doesn't draw on it.
int usableWidth = cWidth - 2;
int usableHeight = cHeight - 2;
if (errorOccurred() && !image()->isNull() && (usableWidth >= image()->width()) && (usableHeight >= image()->height())) {
// Center the error image, accounting for border and padding.
int centerX = (usableWidth - image()->width()) / 2;
if (centerX < 0)
centerX = 0;
int centerY = (usableHeight - image()->height()) / 2;
if (centerY < 0)
centerY = 0;
imageX = leftBorder + leftPad + centerX + 1;
imageY = topBorder + topPad + centerY + 1;
context->drawImage(image(), IntPoint(tx + imageX, ty + imageY));
errorPictureDrawn = true;
}
if (!m_altText.isEmpty()) {
String text = document()->displayStringModifiedByEncoding(m_altText);
context->setFillColor(style()->color());
int ax = tx + leftBorder + leftPad;
int ay = ty + topBorder + topPad;
const Font& font = style()->font();
int ascent = font.ascent();
// Only draw the alt text if it'll fit within the content box,
// and only if it fits above the error image.
TextRun textRun(text.characters(), text.length());
int textWidth = font.width(textRun);
if (errorPictureDrawn) {
if (usableWidth >= textWidth && font.height() <= imageY)
context->drawText(style()->font(), textRun, IntPoint(ax, ay + ascent));
} else if (usableWidth >= textWidth && cHeight >= font.height())
context->drawText(style()->font(), textRun, IntPoint(ax, ay + ascent));
}
}
} else if (hasImage() && cWidth > 0 && cHeight > 0) {
Image* img = image(cWidth, cHeight);
if (!img || img->isNull())
return;
#if PLATFORM(MAC)
if (style()->highlight() != nullAtom && !paintInfo.context->paintingDisabled())
paintCustomHighlight(tx - x(), ty - y(), style()->highlight(), true);
#endif
IntSize contentSize(cWidth, cHeight);
bool useLowQualityScaling = RenderImageScaleObserver::shouldImagePaintAtLowQuality(this, contentSize);
IntRect rect(IntPoint(tx + leftBorder + leftPad, ty + topBorder + topPad), contentSize);
HTMLImageElement* imageElt = (node() && node()->hasTagName(imgTag)) ? static_cast<HTMLImageElement*>(node()) : 0;
CompositeOperator compositeOperator = imageElt ? imageElt->compositeOperator() : CompositeSourceOver;
context->drawImage(image(cWidth, cHeight), rect, compositeOperator, useLowQualityScaling);
}
}
int RenderImage::minimumReplacedHeight() const
{
return errorOccurred() ? intrinsicSize().height() : 0;
}
HTMLMapElement* RenderImage::imageMap()
{
HTMLImageElement* i = node() && node()->hasTagName(imgTag) ? static_cast<HTMLImageElement*>(node()) : 0;
return i ? i->document()->getImageMap(i->useMap()) : 0;
}
bool RenderImage::nodeAtPoint(const HitTestRequest& request, HitTestResult& result, int _x, int _y, int _tx, int _ty, HitTestAction hitTestAction)
{
HitTestResult tempResult(result.point());
bool inside = RenderReplaced::nodeAtPoint(request, tempResult, _x, _y, _tx, _ty, hitTestAction);
if (inside && node()) {
int tx = _tx + x();
int ty = _ty + y();
if (HTMLMapElement* map = imageMap()) {
if (map->mapMouseEvent(_x - tx, _y - ty, IntSize(contentWidth(), contentHeight()), tempResult))
tempResult.setInnerNonSharedNode(node());
}
}
if (inside)
result = tempResult;
return inside;
}
void RenderImage::updateAltText()
{
if (!node())
return;
if (node()->hasTagName(inputTag))
m_altText = static_cast<HTMLInputElement*>(node())->altText();
else if (node()->hasTagName(imgTag))
m_altText = static_cast<HTMLImageElement*>(node())->altText();
#if ENABLE(WML)
else if (node()->hasTagName(WMLNames::imgTag))
m_altText = static_cast<WMLImageElement*>(node())->altText();
#endif
}
bool RenderImage::isWidthSpecified() const
{
switch (style()->width().type()) {
case Fixed:
case Percent:
return true;
case Auto:
case Relative: // FIXME: Shouldn't this case return true?
case Static:
case Intrinsic:
case MinIntrinsic:
return false;
}
ASSERT(false);
return false;
}
bool RenderImage::isHeightSpecified() const
{
switch (style()->height().type()) {
case Fixed:
case Percent:
return true;
case Auto:
case Relative: // FIXME: Shouldn't this case return true?
case Static:
case Intrinsic:
case MinIntrinsic:
return false;
}
ASSERT(false);
return false;
}
int RenderImage::calcReplacedWidth(bool includeMaxWidth) const
{
if (imageHasRelativeWidth())
if (RenderObject* cb = isPositioned() ? container() : containingBlock()) {
if (cb->isBox())
setImageContainerSize(IntSize(toRenderBox(cb)->availableWidth(), toRenderBox(cb)->availableHeight()));
}
int width;
if (isWidthSpecified())
width = calcReplacedWidthUsing(style()->width());
else if (usesImageContainerSize())
width = imageSize(style()->effectiveZoom()).width();
else if (imageHasRelativeWidth())
width = 0; // If the image is relatively-sized, set the width to 0 until there is a set container size.
else
width = calcAspectRatioWidth();
int minW = calcReplacedWidthUsing(style()->minWidth());
int maxW = !includeMaxWidth || style()->maxWidth().isUndefined() ? width : calcReplacedWidthUsing(style()->maxWidth());
return max(minW, min(width, maxW));
}
int RenderImage::calcReplacedHeight() const
{
int height;
if (isHeightSpecified())
height = calcReplacedHeightUsing(style()->height());
else if (usesImageContainerSize())
height = imageSize(style()->effectiveZoom()).height();
else if (imageHasRelativeHeight())
height = 0; // If the image is relatively-sized, set the height to 0 until there is a set container size.
else
height = calcAspectRatioHeight();
int minH = calcReplacedHeightUsing(style()->minHeight());
int maxH = style()->maxHeight().isUndefined() ? height : calcReplacedHeightUsing(style()->maxHeight());
return max(minH, min(height, maxH));
}
int RenderImage::calcAspectRatioWidth() const
{
IntSize size = intrinsicSize();
if (!size.height())
return 0;
if (!hasImage() || errorOccurred())
return size.width(); // Don't bother scaling.
return RenderReplaced::calcReplacedHeight() * size.width() / size.height();
}
int RenderImage::calcAspectRatioHeight() const
{
IntSize size = intrinsicSize();
if (!size.width())
return 0;
if (!hasImage() || errorOccurred())
return size.height(); // Don't bother scaling.
return RenderReplaced::calcReplacedWidth() * size.height() / size.width();
}
void RenderImage::calcPrefWidths()
{
ASSERT(prefWidthsDirty());
int paddingAndBorders = paddingLeft() + paddingRight() + borderLeft() + borderRight();
m_maxPrefWidth = calcReplacedWidth(false) + paddingAndBorders;
if (style()->maxWidth().isFixed() && style()->maxWidth().value() != undefinedLength)
m_maxPrefWidth = min(m_maxPrefWidth, style()->maxWidth().value() + (style()->boxSizing() == CONTENT_BOX ? paddingAndBorders : 0));
if (style()->width().isPercent() || style()->height().isPercent() ||
style()->maxWidth().isPercent() || style()->maxHeight().isPercent() ||
style()->minWidth().isPercent() || style()->minHeight().isPercent())
m_minPrefWidth = 0;
else
m_minPrefWidth = m_maxPrefWidth;
setPrefWidthsDirty(false);
}
Image* RenderImage::nullImage()
{
return Image::nullImage();
}
} // namespace WebCore