/* * Copyright (C) 2008-2009 Torch Mobile, Inc. * Copyright (C) Research In Motion Limited 2009-2010. 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 "ImageDecoder.h" #include #include #include "BMPImageDecoder.h" #include "GIFImageDecoder.h" #include "ICOImageDecoder.h" #include "JPEGImageDecoder.h" #include "PNGImageDecoder.h" #include "WEBPImageDecoder.h" #include "SharedBuffer.h" using namespace std; namespace WebCore { namespace { unsigned copyFromSharedBuffer(char* buffer, unsigned bufferLength, const SharedBuffer& sharedBuffer, unsigned offset) { unsigned bytesExtracted = 0; const char* moreData; while (unsigned moreDataLength = sharedBuffer.getSomeData(moreData, offset)) { unsigned bytesToCopy = min(bufferLength - bytesExtracted, moreDataLength); memcpy(buffer + bytesExtracted, moreData, bytesToCopy); bytesExtracted += bytesToCopy; if (bytesExtracted == bufferLength) break; offset += bytesToCopy; } return bytesExtracted; } bool matchesGIFSignature(char* contents) { return !memcmp(contents, "GIF8", 4); } bool matchesPNGSignature(char* contents) { return !memcmp(contents, "\x89\x50\x4E\x47", 4); } bool matchesJPEGSignature(char* contents) { return !memcmp(contents, "\xFF\xD8\xFF", 3); } #if USE(WEBP) bool matchesWebPSignature(char* contents) { return !memcmp(contents, "RIFF", 4) && !memcmp(contents + 8, "WEBPVP", 6); } #endif bool matchesBMPSignature(char* contents) { return !memcmp(contents, "BM", 2); } bool matchesICOSignature(char* contents) { return !memcmp(contents, "\x00\x00\x01\x00", 4); } bool matchesCURSignature(char* contents) { return !memcmp(contents, "\x00\x00\x02\x00", 4); } } #if !OS(ANDROID) // This method requires BMPImageDecoder, PNGImageDecoder, ICOImageDecoder and // JPEGDecoder, which aren't used on Android, and which don't all compile. // TODO: Find a better fix. ImageDecoder* ImageDecoder::create(const SharedBuffer& data, ImageSource::AlphaOption alphaOption, ImageSource::GammaAndColorProfileOption gammaAndColorProfileOption) { static const unsigned lengthOfLongestSignature = 14; // To wit: "RIFF????WEBPVP" char contents[lengthOfLongestSignature]; unsigned length = copyFromSharedBuffer(contents, lengthOfLongestSignature, data, 0); if (length < lengthOfLongestSignature) return 0; if (matchesGIFSignature(contents)) return new GIFImageDecoder(alphaOption, gammaAndColorProfileOption); if (matchesPNGSignature(contents)) return new PNGImageDecoder(alphaOption, gammaAndColorProfileOption); if (matchesJPEGSignature(contents)) return new JPEGImageDecoder(alphaOption, gammaAndColorProfileOption); #if USE(WEBP) if (matchesWebPSignature(contents)) return new WEBPImageDecoder(alphaOption, gammaAndColorProfileOption); #endif if (matchesBMPSignature(contents)) return new BMPImageDecoder(alphaOption, gammaAndColorProfileOption); if (matchesICOSignature(contents) || matchesCURSignature(contents)) return new ICOImageDecoder(alphaOption, gammaAndColorProfileOption); return 0; } #endif // !OS(ANDROID) #if !USE(SKIA) ImageFrame::ImageFrame() : m_hasAlpha(false) , m_status(FrameEmpty) , m_duration(0) , m_disposalMethod(DisposeNotSpecified) , m_premultiplyAlpha(true) { } ImageFrame& ImageFrame::operator=(const ImageFrame& other) { if (this == &other) return *this; copyReferenceToBitmapData(other); setOriginalFrameRect(other.originalFrameRect()); setStatus(other.status()); setDuration(other.duration()); setDisposalMethod(other.disposalMethod()); setPremultiplyAlpha(other.premultiplyAlpha()); return *this; } void ImageFrame::clearPixelData() { m_backingStore.clear(); m_bytes = 0; m_status = FrameEmpty; // NOTE: Do not reset other members here; clearFrameBufferCache() calls this // to free the bitmap data, but other functions like initFrameBuffer() and // frameComplete() may still need to read other metadata out of this frame // later. } void ImageFrame::zeroFillPixelData() { memset(m_bytes, 0, m_size.width() * m_size.height() * sizeof(PixelData)); m_hasAlpha = true; } #if !USE(CG) void ImageFrame::copyReferenceToBitmapData(const ImageFrame& other) { ASSERT(this != &other); copyBitmapData(other); } bool ImageFrame::copyBitmapData(const ImageFrame& other) { if (this == &other) return true; m_backingStore = other.m_backingStore; m_bytes = m_backingStore.data(); m_size = other.m_size; setHasAlpha(other.m_hasAlpha); return true; } bool ImageFrame::setSize(int newWidth, int newHeight) { // NOTE: This has no way to check for allocation failure if the requested // size was too big... m_backingStore.resize(newWidth * newHeight); m_bytes = m_backingStore.data(); m_size = IntSize(newWidth, newHeight); zeroFillPixelData(); return true; } #endif bool ImageFrame::hasAlpha() const { return m_hasAlpha; } void ImageFrame::setHasAlpha(bool alpha) { m_hasAlpha = alpha; } void ImageFrame::setColorProfile(const ColorProfile& colorProfile) { m_colorProfile = colorProfile; } void ImageFrame::setStatus(FrameStatus status) { m_status = status; } int ImageFrame::width() const { return m_size.width(); } int ImageFrame::height() const { return m_size.height(); } #endif namespace { enum MatchType { Exact, UpperBound, LowerBound }; inline void fillScaledValues(Vector& scaledValues, double scaleRate, int length) { double inflateRate = 1. / scaleRate; scaledValues.reserveCapacity(static_cast(length * scaleRate + 0.5)); for (int scaledIndex = 0; ; ++scaledIndex) { int index = static_cast(scaledIndex * inflateRate + 0.5); if (index >= length) break; scaledValues.append(index); } } template int getScaledValue(const Vector& scaledValues, int valueToMatch, int searchStart) { if (scaledValues.isEmpty()) return valueToMatch; const int* dataStart = scaledValues.data(); const int* dataEnd = dataStart + scaledValues.size(); const int* matched = std::lower_bound(dataStart + searchStart, dataEnd, valueToMatch); switch (type) { case Exact: return matched != dataEnd && *matched == valueToMatch ? matched - dataStart : -1; case LowerBound: return matched != dataEnd && *matched == valueToMatch ? matched - dataStart : matched - dataStart - 1; case UpperBound: default: return matched != dataEnd ? matched - dataStart : -1; } } } void ImageDecoder::prepareScaleDataIfNecessary() { m_scaled = false; m_scaledColumns.clear(); m_scaledRows.clear(); int width = size().width(); int height = size().height(); int numPixels = height * width; if (m_maxNumPixels <= 0 || numPixels <= m_maxNumPixels) return; m_scaled = true; double scale = sqrt(m_maxNumPixels / (double)numPixels); fillScaledValues(m_scaledColumns, scale, width); fillScaledValues(m_scaledRows, scale, height); } int ImageDecoder::upperBoundScaledX(int origX, int searchStart) { return getScaledValue(m_scaledColumns, origX, searchStart); } int ImageDecoder::lowerBoundScaledX(int origX, int searchStart) { return getScaledValue(m_scaledColumns, origX, searchStart); } int ImageDecoder::upperBoundScaledY(int origY, int searchStart) { return getScaledValue(m_scaledRows, origY, searchStart); } int ImageDecoder::lowerBoundScaledY(int origY, int searchStart) { return getScaledValue(m_scaledRows, origY, searchStart); } int ImageDecoder::scaledY(int origY, int searchStart) { return getScaledValue(m_scaledRows, origY, searchStart); } }