/* * Copyright (C) 2004, 2006, 2007 Apple Inc. All rights reserved. * Copyright (C) 2007 Alp Toker * * 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 COMPUTER, INC. ``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 COMPUTER, INC. OR * 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 "HTMLCanvasElement.h" #include "CanvasGradient.h" #include "CanvasPattern.h" #include "CanvasRenderingContext2D.h" #include "CanvasStyle.h" #include "Chrome.h" #include "Document.h" #include "ExceptionCode.h" #include "Frame.h" #include "GraphicsContext.h" #include "HTMLNames.h" #include "ImageBuffer.h" #include "MIMETypeRegistry.h" #include "MappedAttribute.h" #include "Page.h" #include "RenderHTMLCanvas.h" #include "Settings.h" #include #include namespace WebCore { using namespace HTMLNames; // These values come from the WhatWG spec. static const int defaultWidth = 300; static const int defaultHeight = 150; // Firefox limits width/height to 32767 pixels, but slows down dramatically before it // reaches that limit. We limit by area instead, giving us larger maximum dimensions, // in exchange for a smaller maximum canvas size. const float HTMLCanvasElement::MaxCanvasArea = 32768 * 8192; // Maximum canvas area in CSS pixels HTMLCanvasElement::HTMLCanvasElement(const QualifiedName& tagName, Document* doc) : HTMLElement(tagName, doc) , m_size(defaultWidth, defaultHeight) , m_observer(0) , m_originClean(true) , m_ignoreReset(false) , m_createdImageBuffer(false) { ASSERT(hasTagName(canvasTag)); } HTMLCanvasElement::~HTMLCanvasElement() { if (m_observer) m_observer->canvasDestroyed(this); } #if ENABLE(DASHBOARD_SUPPORT) HTMLTagStatus HTMLCanvasElement::endTagRequirement() const { Settings* settings = document()->settings(); if (settings && settings->usesDashboardBackwardCompatibilityMode()) return TagStatusForbidden; return HTMLElement::endTagRequirement(); } int HTMLCanvasElement::tagPriority() const { Settings* settings = document()->settings(); if (settings && settings->usesDashboardBackwardCompatibilityMode()) return 0; return HTMLElement::tagPriority(); } #endif void HTMLCanvasElement::parseMappedAttribute(MappedAttribute* attr) { const QualifiedName& attrName = attr->name(); if (attrName == widthAttr || attrName == heightAttr) reset(); HTMLElement::parseMappedAttribute(attr); } RenderObject* HTMLCanvasElement::createRenderer(RenderArena* arena, RenderStyle* style) { Settings* settings = document()->settings(); if (settings && settings->isJavaScriptEnabled()) { m_rendererIsCanvas = true; return new (arena) RenderHTMLCanvas(this); } m_rendererIsCanvas = false; return HTMLElement::createRenderer(arena, style); } void HTMLCanvasElement::setHeight(int value) { setAttribute(heightAttr, String::number(value)); } void HTMLCanvasElement::setWidth(int value) { setAttribute(widthAttr, String::number(value)); } String HTMLCanvasElement::toDataURL(const String& mimeType, ExceptionCode& ec) { if (!m_originClean) { ec = SECURITY_ERR; return String(); } if (m_size.isEmpty()) return String("data:,"); if (mimeType.isNull() || !MIMETypeRegistry::isSupportedImageMIMETypeForEncoding(mimeType)) return buffer()->toDataURL("image/png"); return buffer()->toDataURL(mimeType); } CanvasRenderingContext* HTMLCanvasElement::getContext(const String& type) { if (type == "2d") { if (!m_2DContext) m_2DContext.set(new CanvasRenderingContext2D(this)); return m_2DContext.get(); } return 0; } void HTMLCanvasElement::willDraw(const FloatRect& rect) { m_imageBuffer->clearImage(); if (RenderBox* ro = renderBox()) { FloatRect destRect = ro->contentBoxRect(); FloatRect r = mapRect(rect, FloatRect(0, 0, m_size.width(), m_size.height()), destRect); r.intersect(destRect); if (m_dirtyRect.contains(r)) return; m_dirtyRect.unite(r); ro->repaintRectangle(enclosingIntRect(m_dirtyRect)); } if (m_observer) m_observer->canvasChanged(this, rect); } void HTMLCanvasElement::reset() { if (m_ignoreReset) return; bool ok; int w = getAttribute(widthAttr).toInt(&ok); if (!ok) w = defaultWidth; int h = getAttribute(heightAttr).toInt(&ok); if (!ok) h = defaultHeight; IntSize oldSize = m_size; m_size = IntSize(w, h); bool hadImageBuffer = m_createdImageBuffer; m_createdImageBuffer = false; m_imageBuffer.clear(); if (m_2DContext) m_2DContext->reset(); if (RenderObject* renderer = this->renderer()) { if (m_rendererIsCanvas) { if (oldSize != m_size) toRenderHTMLCanvas(renderer)->canvasSizeChanged(); if (hadImageBuffer) renderer->repaint(); } } if (m_observer) m_observer->canvasResized(this); } void HTMLCanvasElement::paint(GraphicsContext* context, const IntRect& r) { // Clear the dirty rect m_dirtyRect = FloatRect(); if (context->paintingDisabled()) return; if (m_imageBuffer) { Image* image = m_imageBuffer->image(); if (image) context->drawImage(image, r); } } IntRect HTMLCanvasElement::convertLogicalToDevice(const FloatRect& logicalRect) const { return IntRect(convertLogicalToDevice(logicalRect.location()), convertLogicalToDevice(logicalRect.size())); } IntSize HTMLCanvasElement::convertLogicalToDevice(const FloatSize& logicalSize) const { float pageScaleFactor = document()->frame() ? document()->frame()->page()->chrome()->scaleFactor() : 1.0f; float wf = ceilf(logicalSize.width() * pageScaleFactor); float hf = ceilf(logicalSize.height() * pageScaleFactor); if (!(wf >= 1 && hf >= 1 && wf * hf <= MaxCanvasArea)) return IntSize(); return IntSize(static_cast(wf), static_cast(hf)); } IntPoint HTMLCanvasElement::convertLogicalToDevice(const FloatPoint& logicalPos) const { float pageScaleFactor = document()->frame() ? document()->frame()->page()->chrome()->scaleFactor() : 1.0f; float xf = logicalPos.x() * pageScaleFactor; float yf = logicalPos.y() * pageScaleFactor; return IntPoint(static_cast(xf), static_cast(yf)); } void HTMLCanvasElement::createImageBuffer() const { ASSERT(!m_imageBuffer); m_createdImageBuffer = true; FloatSize unscaledSize(width(), height()); IntSize size = convertLogicalToDevice(unscaledSize); if (!size.width() || !size.height()) return; m_imageBuffer = ImageBuffer::create(size); // The convertLogicalToDevice MaxCanvasArea check should prevent common cases // where ImageBuffer::create() returns NULL, however we could still be low on memory. if (!m_imageBuffer) return; m_imageBuffer->context()->scale(FloatSize(size.width() / unscaledSize.width(), size.height() / unscaledSize.height())); m_imageBuffer->context()->setShadowsIgnoreTransforms(true); } GraphicsContext* HTMLCanvasElement::drawingContext() const { return buffer() ? m_imageBuffer->context() : 0; } ImageBuffer* HTMLCanvasElement::buffer() const { if (!m_createdImageBuffer) createImageBuffer(); return m_imageBuffer.get(); } TransformationMatrix HTMLCanvasElement::baseTransform() const { ASSERT(m_createdImageBuffer); FloatSize unscaledSize(width(), height()); IntSize size = convertLogicalToDevice(unscaledSize); TransformationMatrix transform; if (size.width() && size.height()) transform.scaleNonUniform(size.width() / unscaledSize.width(), size.height() / unscaledSize.height()); transform.multiply(m_imageBuffer->baseTransform()); return transform; } }