/* * Copyright (C) 2010 Apple Inc. 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 APPLE INC. AND ITS CONTRIBUTORS ``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 APPLE INC. OR ITS CONTRIBUTORS * 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. */ #include "config.h" #include "FindIndicator.h" #include "ShareableBitmap.h" #include #include #include #include using namespace WebCore; static const float cornerRadius = 3.0; static const float shadowOffsetX = 0.0; static const float shadowOffsetY = 1.0; static const float shadowBlurRadius = 3.0; static const int shadowRed = 0; static const int shadowGreen = 0; static const int shadowBlue = 0; static const int shadowAlpha = 204; static const float lightBorderThickness = 1.0; static const float horizontalPaddingInsideLightBorder = 3.0; static const float verticalPaddingInsideLightBorder = 1.0; static const float horizontalBorderInsideShadow = lightBorderThickness + horizontalPaddingInsideLightBorder; static const float verticalBorderInsideShadow = lightBorderThickness + verticalPaddingInsideLightBorder; static const float leftBorderThickness = horizontalBorderInsideShadow + shadowOffsetX + shadowBlurRadius / 2.0; static const float topBorderThickness = verticalBorderInsideShadow - shadowOffsetY + shadowBlurRadius / 2.0; static const float rightBorderThickness = horizontalBorderInsideShadow - shadowOffsetX + shadowBlurRadius / 2.0; static const float bottomBorderThickness = verticalBorderInsideShadow + shadowOffsetY + shadowBlurRadius / 2.0; static const float horizontalOutsetToCenterOfLightBorder = horizontalBorderInsideShadow - lightBorderThickness / 2.0; static const float verticalOutsetToCenterOfLightBorder = verticalBorderInsideShadow - lightBorderThickness / 2.0; static const int lightBorderRed = 245; static const int lightBorderGreen = 230; static const int lightBorderBlue = 0; static const int lightBorderAlpha = 255; static const int gradientDarkRed = 237; static const int gradientDarkGreen = 204; static const int gradientDarkBlue = 0; static const int gradientDarkAlpha = 255; static const int gradientLightRed = 242; static const int gradientLightGreen = 239; static const int gradientLightBlue = 0; static const int gradientLightAlpha = 255; namespace WebKit { PassRefPtr FindIndicator::create(const FloatRect& selectionRectInWindowCoordinates, const Vector& textRectsInSelectionRectCoordinates, float contentImageScaleFactor, const ShareableBitmap::Handle& contentImageHandle) { RefPtr contentImage = ShareableBitmap::create(contentImageHandle); if (!contentImage) return 0; ASSERT(contentImageScaleFactor != 1 || contentImage->size() == enclosingIntRect(selectionRectInWindowCoordinates).size()); return adoptRef(new FindIndicator(selectionRectInWindowCoordinates, textRectsInSelectionRectCoordinates, contentImageScaleFactor, contentImage.release())); } static bool findIndicatorsForTextRectsOverlap(const Vector& textRects) { size_t count = textRects.size(); if (count <= 1) return false; Vector indicatorRects; indicatorRects.reserveInitialCapacity(count); for (size_t i = 0; i < count; ++i) { FloatRect indicatorRect = textRects[i]; indicatorRect.move(-leftBorderThickness, -topBorderThickness); indicatorRect.expand(leftBorderThickness + rightBorderThickness, topBorderThickness + bottomBorderThickness); for (size_t j = indicatorRects.size(); j; ) { --j; if (indicatorRect.intersects(indicatorRects[j])) return true; } indicatorRects.uncheckedAppend(indicatorRect); } return false; } FindIndicator::FindIndicator(const WebCore::FloatRect& selectionRectInWindowCoordinates, const Vector& textRectsInSelectionRectCoordinates, float contentImageScaleFactor, PassRefPtr contentImage) : m_selectionRectInWindowCoordinates(selectionRectInWindowCoordinates) , m_textRectsInSelectionRectCoordinates(textRectsInSelectionRectCoordinates) , m_contentImageScaleFactor(contentImageScaleFactor) , m_contentImage(contentImage) { if (findIndicatorsForTextRectsOverlap(m_textRectsInSelectionRectCoordinates)) { m_textRectsInSelectionRectCoordinates[0] = unionRect(m_textRectsInSelectionRectCoordinates); m_textRectsInSelectionRectCoordinates.shrink(1); } } FindIndicator::~FindIndicator() { } static FloatRect inflateRect(const FloatRect& rect, float inflateX, float inflateY) { FloatRect inflatedRect = rect; inflatedRect.inflateX(inflateX); inflatedRect.inflateY(inflateY); return inflatedRect; } FloatRect FindIndicator::frameRect() const { return FloatRect(m_selectionRectInWindowCoordinates.x() - leftBorderThickness, m_selectionRectInWindowCoordinates.y() - topBorderThickness, m_selectionRectInWindowCoordinates.width() + rightBorderThickness + leftBorderThickness, m_selectionRectInWindowCoordinates.height() + topBorderThickness + bottomBorderThickness); } static Color lightBorderColor() { return Color(lightBorderRed, lightBorderGreen, lightBorderBlue, lightBorderAlpha); } static Color shadowColor() { return Color(shadowRed, shadowGreen, shadowBlue, shadowAlpha); } static Color gradientLightColor() { return Color(gradientLightRed, gradientLightGreen, gradientLightBlue, gradientLightAlpha); } static Color gradientDarkColor() { return Color(gradientDarkRed, gradientDarkGreen, gradientDarkBlue, gradientDarkAlpha); } static Path pathWithRoundedRect(const FloatRect& pathRect, float radius) { Path path; path.addRoundedRect(pathRect, FloatSize(radius, radius)); return path; } void FindIndicator::draw(GraphicsContext& graphicsContext, const IntRect& /*dirtyRect*/) { for (size_t i = 0; i < m_textRectsInSelectionRectCoordinates.size(); ++i) { FloatRect textRect = m_textRectsInSelectionRectCoordinates[i]; textRect.move(leftBorderThickness, topBorderThickness); FloatRect outerPathRect = inflateRect(textRect, horizontalOutsetToCenterOfLightBorder, verticalOutsetToCenterOfLightBorder); FloatRect innerPathRect = inflateRect(textRect, horizontalPaddingInsideLightBorder, verticalPaddingInsideLightBorder); { GraphicsContextStateSaver stateSaver(graphicsContext); graphicsContext.setShadow(FloatSize(shadowOffsetX, shadowOffsetY), shadowBlurRadius, shadowColor(), ColorSpaceSRGB); graphicsContext.setFillColor(lightBorderColor(), ColorSpaceDeviceRGB); graphicsContext.fillPath(pathWithRoundedRect(outerPathRect, cornerRadius)); } { GraphicsContextStateSaver stateSaver(graphicsContext); graphicsContext.clip(pathWithRoundedRect(innerPathRect, cornerRadius)); RefPtr gradient = Gradient::create(FloatPoint(innerPathRect.x(), innerPathRect.y()), FloatPoint(innerPathRect.x(), innerPathRect.maxY())); gradient->addColorStop(0, gradientLightColor()); gradient->addColorStop(1, gradientDarkColor()); graphicsContext.setFillGradient(gradient); graphicsContext.fillRect(outerPathRect); } { GraphicsContextStateSaver stateSaver(graphicsContext); graphicsContext.translate(FloatSize(roundf(leftBorderThickness), roundf(topBorderThickness))); IntRect contentImageRect = enclosingIntRect(m_textRectsInSelectionRectCoordinates[i]); m_contentImage->paint(graphicsContext, m_contentImageScaleFactor, contentImageRect.location(), contentImageRect); } } } } // namespace WebKit