| author | Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com> |
| Fri, 19 Feb 2010 23:40:16 +0200 | |
| branch | RCL_3 |
| changeset 4 | 3b1da2848fc7 |
| parent 3 | 41300fa6a67c |
| child 5 | d3bac044e0f0 |
| permissions | -rw-r--r-- |
| 0 | 1 |
/**************************************************************************** |
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** |
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4
3b1da2848fc7
Revision: 201003
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
3
diff
changeset
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** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). |
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** All rights reserved. |
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** Contact: Nokia Corporation (qt-info@nokia.com) |
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** |
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** This file is part of the plugins of the Qt Toolkit. |
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** |
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** $QT_BEGIN_LICENSE:LGPL$ |
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** No Commercial Usage |
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** This file contains pre-release code and may not be distributed. |
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** You may use this file in accordance with the terms and conditions |
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** contained in the Technology Preview License Agreement accompanying |
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** this package. |
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** |
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** GNU Lesser General Public License Usage |
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** Alternatively, this file may be used under the terms of the GNU Lesser |
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** General Public License version 2.1 as published by the Free Software |
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** Foundation and appearing in the file LICENSE.LGPL included in the |
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** packaging of this file. Please review the following information to |
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** ensure the GNU Lesser General Public License version 2.1 requirements |
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** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. |
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** |
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** In addition, as a special exception, Nokia gives you certain additional |
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** rights. These rights are described in the Nokia Qt LGPL Exception |
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** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. |
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** |
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** If you have questions regarding the use of this file, please contact |
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** Nokia at qt-info@nokia.com. |
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** |
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** |
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** |
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** |
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** |
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** |
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** |
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** |
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** $QT_END_LICENSE$ |
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** |
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****************************************************************************/ |
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/*! |
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\class QtIcoHandler |
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\since 4.4 |
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\brief The QtIcoHandler class provides support for the ICO image format. |
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\internal |
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*/ |
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#include "qicohandler.h" |
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#include <QtCore/qendian.h> |
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#include <QtGui/QImage> |
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#include <QtCore/QFile> |
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#include <QtCore/QBuffer> |
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// These next two structs represent how the icon information is stored |
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// in an ICO file. |
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typedef struct |
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{
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quint8 bWidth; // Width of the image |
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quint8 bHeight; // Height of the image (times 2) |
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quint8 bColorCount; // Number of colors in image (0 if >=8bpp) [ not ture ] |
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quint8 bReserved; // Reserved |
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quint16 wPlanes; // Color Planes |
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quint16 wBitCount; // Bits per pixel |
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quint32 dwBytesInRes; // how many bytes in this resource? |
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quint32 dwImageOffset; // where in the file is this image |
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} ICONDIRENTRY, *LPICONDIRENTRY; |
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#define ICONDIRENTRY_SIZE 16 |
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typedef struct |
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{
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quint16 idReserved; // Reserved |
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quint16 idType; // resource type (1 for icons) |
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quint16 idCount; // how many images? |
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ICONDIRENTRY idEntries[1]; // the entries for each image |
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} ICONDIR, *LPICONDIR; |
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#define ICONDIR_SIZE 6 // Exclude the idEntries field |
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typedef struct { // BMP information header
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quint32 biSize; // size of this struct |
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quint32 biWidth; // pixmap width |
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quint32 biHeight; // pixmap height (specifies the combined height of the XOR and AND masks) |
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quint16 biPlanes; // should be 1 |
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quint16 biBitCount; // number of bits per pixel |
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quint32 biCompression; // compression method |
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quint32 biSizeImage; // size of image |
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quint32 biXPelsPerMeter; // horizontal resolution |
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quint32 biYPelsPerMeter; // vertical resolution |
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quint32 biClrUsed; // number of colors used |
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quint32 biClrImportant; // number of important colors |
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} BMP_INFOHDR ,*LPBMP_INFOHDR; |
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#define BMP_INFOHDR_SIZE 40 |
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class ICOReader |
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{
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public: |
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ICOReader(QIODevice * iodevice); |
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int count(); |
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QImage iconAt(int index); |
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static bool canRead(QIODevice *iodev); |
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static QList<QImage> read(QIODevice * device); |
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static bool write(QIODevice * device, const QList<QImage> & images); |
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private: |
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bool readHeader(); |
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bool readIconEntry(int index, ICONDIRENTRY * iconEntry); |
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bool readBMPHeader(quint32 imageOffset, BMP_INFOHDR * header); |
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void findColorInfo(QImage & image); |
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void readColorTable(QImage & image); |
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void readBMP(QImage & image); |
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void read1BitBMP(QImage & image); |
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void read4BitBMP(QImage & image); |
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void read8BitBMP(QImage & image); |
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void read16_24_32BMP(QImage & image); |
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struct IcoAttrib |
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{
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int nbits; |
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int ncolors; |
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int h; |
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int w; |
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int depth; |
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} icoAttrib; |
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QIODevice * iod; |
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qint64 startpos; |
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bool headerRead; |
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ICONDIR iconDir; |
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}; |
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// Data readers and writers that takes care of alignment and endian stuff. |
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static bool readIconDirEntry(QIODevice *iodev, ICONDIRENTRY *iconDirEntry) |
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{
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if (iodev) {
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uchar tmp[ICONDIRENTRY_SIZE]; |
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if (iodev->read((char*)tmp, ICONDIRENTRY_SIZE) == ICONDIRENTRY_SIZE) {
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iconDirEntry->bWidth = tmp[0]; |
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iconDirEntry->bHeight = tmp[1]; |
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iconDirEntry->bColorCount = tmp[2]; |
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iconDirEntry->bReserved = tmp[3]; |
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iconDirEntry->wPlanes = qFromLittleEndian<quint16>(&tmp[4]); |
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iconDirEntry->wBitCount = qFromLittleEndian<quint16>(&tmp[6]); |
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iconDirEntry->dwBytesInRes = qFromLittleEndian<quint32>(&tmp[8]); |
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iconDirEntry->dwImageOffset = qFromLittleEndian<quint32>(&tmp[12]); |
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return true; |
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} |
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} |
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return false; |
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} |
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static bool writeIconDirEntry(QIODevice *iodev, const ICONDIRENTRY &iconEntry) |
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{
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if (iodev) {
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uchar tmp[ICONDIRENTRY_SIZE]; |
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tmp[0] = iconEntry.bWidth; |
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tmp[1] = iconEntry.bHeight; |
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tmp[2] = iconEntry.bColorCount; |
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tmp[3] = iconEntry.bReserved; |
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qToLittleEndian<quint16>(iconEntry.wPlanes, &tmp[4]); |
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qToLittleEndian<quint16>(iconEntry.wBitCount, &tmp[6]); |
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qToLittleEndian<quint32>(iconEntry.dwBytesInRes, &tmp[8]); |
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qToLittleEndian<quint32>(iconEntry.dwImageOffset, &tmp[12]); |
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return (iodev->write((char*)tmp, ICONDIRENTRY_SIZE) == ICONDIRENTRY_SIZE) ? true : false; |
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} |
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return false; |
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} |
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static bool readIconDir(QIODevice *iodev, ICONDIR *iconDir) |
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{
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if (iodev) {
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uchar tmp[ICONDIR_SIZE]; |
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if (iodev->read((char*)tmp, ICONDIR_SIZE) == ICONDIR_SIZE) {
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iconDir->idReserved = qFromLittleEndian<quint16>(&tmp[0]); |
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iconDir->idType = qFromLittleEndian<quint16>(&tmp[2]); |
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iconDir->idCount = qFromLittleEndian<quint16>(&tmp[4]); |
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return true; |
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} |
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} |
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return false; |
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} |
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static bool writeIconDir(QIODevice *iodev, const ICONDIR &iconDir) |
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{
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if (iodev) {
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uchar tmp[6]; |
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qToLittleEndian(iconDir.idReserved, tmp); |
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qToLittleEndian(iconDir.idType, &tmp[2]); |
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qToLittleEndian(iconDir.idCount, &tmp[4]); |
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return (iodev->write((char*)tmp, 6) == 6) ? true : false; |
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} |
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return false; |
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} |
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static bool readBMPInfoHeader(QIODevice *iodev, BMP_INFOHDR *pHeader) |
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{
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if (iodev) {
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uchar header[BMP_INFOHDR_SIZE]; |
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if (iodev->read((char*)header, BMP_INFOHDR_SIZE) == BMP_INFOHDR_SIZE) {
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pHeader->biSize = qFromLittleEndian<quint32>(&header[0]); |
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pHeader->biWidth = qFromLittleEndian<quint32>(&header[4]); |
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pHeader->biHeight = qFromLittleEndian<quint32>(&header[8]); |
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pHeader->biPlanes = qFromLittleEndian<quint16>(&header[12]); |
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pHeader->biBitCount = qFromLittleEndian<quint16>(&header[14]); |
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pHeader->biCompression = qFromLittleEndian<quint32>(&header[16]); |
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pHeader->biSizeImage = qFromLittleEndian<quint32>(&header[20]); |
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pHeader->biXPelsPerMeter = qFromLittleEndian<quint32>(&header[24]); |
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pHeader->biYPelsPerMeter = qFromLittleEndian<quint32>(&header[28]); |
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pHeader->biClrUsed = qFromLittleEndian<quint32>(&header[32]); |
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pHeader->biClrImportant = qFromLittleEndian<quint32>(&header[36]); |
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return true; |
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} |
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} |
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return false; |
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} |
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static bool writeBMPInfoHeader(QIODevice *iodev, const BMP_INFOHDR &header) |
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{
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if (iodev) {
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uchar tmp[BMP_INFOHDR_SIZE]; |
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qToLittleEndian<quint32>(header.biSize, &tmp[0]); |
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qToLittleEndian<quint32>(header.biWidth, &tmp[4]); |
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qToLittleEndian<quint32>(header.biHeight, &tmp[8]); |
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qToLittleEndian<quint16>(header.biPlanes, &tmp[12]); |
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qToLittleEndian<quint16>(header.biBitCount, &tmp[14]); |
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qToLittleEndian<quint32>(header.biCompression, &tmp[16]); |
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qToLittleEndian<quint32>(header.biSizeImage, &tmp[20]); |
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qToLittleEndian<quint32>(header.biXPelsPerMeter, &tmp[24]); |
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qToLittleEndian<quint32>(header.biYPelsPerMeter, &tmp[28]); |
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qToLittleEndian<quint32>(header.biClrUsed, &tmp[32]); |
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qToLittleEndian<quint32>(header.biClrImportant, &tmp[36]); |
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return (iodev->write((char*)tmp, BMP_INFOHDR_SIZE) == BMP_INFOHDR_SIZE) ? true : false; |
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} |
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return false; |
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} |
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ICOReader::ICOReader(QIODevice * iodevice) |
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: iod(iodevice) |
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, startpos(0) |
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, headerRead(false) |
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{
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} |
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int ICOReader::count() |
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{
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if (readHeader()) |
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return iconDir.idCount; |
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return 0; |
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} |
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bool ICOReader::canRead(QIODevice *iodev) |
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{
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bool isProbablyICO = false; |
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if (iodev) {
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qint64 oldPos = iodev->pos(); |
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ICONDIR ikonDir; |
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if (readIconDir(iodev, &ikonDir)) {
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qint64 readBytes = ICONDIR_SIZE; |
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if (readIconDirEntry(iodev, &ikonDir.idEntries[0])) {
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readBytes += ICONDIRENTRY_SIZE; |
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// ICO format does not have a magic identifier, so we read 6 different values, which will hopefully be enough to identify the file. |
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if ( ikonDir.idReserved == 0 |
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&& ikonDir.idType == 1 |
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&& ikonDir.idEntries[0].bReserved == 0 |
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&& ikonDir.idEntries[0].wPlanes <= 1 |
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&& ikonDir.idEntries[0].wBitCount <= 32 // Bits per pixel |
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&& ikonDir.idEntries[0].dwBytesInRes >= 40 // Must be over 40, since sizeof (infoheader) == 40 |
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) {
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isProbablyICO = true; |
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} |
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if (iodev->isSequential()) {
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// Our structs might be padded due to alignment, so we need to fetch each member before we ungetChar() ! |
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quint32 tmp = ikonDir.idEntries[0].dwImageOffset; |
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iodev->ungetChar((tmp >> 24) & 0xff); |
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iodev->ungetChar((tmp >> 16) & 0xff); |
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iodev->ungetChar((tmp >> 8) & 0xff); |
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iodev->ungetChar(tmp & 0xff); |
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tmp = ikonDir.idEntries[0].dwBytesInRes; |
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iodev->ungetChar((tmp >> 24) & 0xff); |
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iodev->ungetChar((tmp >> 16) & 0xff); |
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iodev->ungetChar((tmp >> 8) & 0xff); |
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iodev->ungetChar(tmp & 0xff); |
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tmp = ikonDir.idEntries[0].wBitCount; |
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iodev->ungetChar((tmp >> 8) & 0xff); |
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iodev->ungetChar(tmp & 0xff); |
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tmp = ikonDir.idEntries[0].wPlanes; |
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iodev->ungetChar((tmp >> 8) & 0xff); |
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iodev->ungetChar(tmp & 0xff); |
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iodev->ungetChar(ikonDir.idEntries[0].bReserved); |
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iodev->ungetChar(ikonDir.idEntries[0].bColorCount); |
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iodev->ungetChar(ikonDir.idEntries[0].bHeight); |
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iodev->ungetChar(ikonDir.idEntries[0].bWidth); |
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} |
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} |
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if (iodev->isSequential()) {
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// Our structs might be padded due to alignment, so we need to fetch each member before we ungetChar() ! |
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quint32 tmp = ikonDir.idCount; |
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iodev->ungetChar((tmp >> 8) & 0xff); |
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iodev->ungetChar(tmp & 0xff); |
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tmp = ikonDir.idType; |
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iodev->ungetChar((tmp >> 8) & 0xff); |
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iodev->ungetChar(tmp & 0xff); |
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tmp = ikonDir.idReserved; |
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iodev->ungetChar((tmp >> 8) & 0xff); |
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iodev->ungetChar(tmp & 0xff); |
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} |
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} |
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if (!iodev->isSequential()) iodev->seek(oldPos); |
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} |
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return isProbablyICO; |
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} |
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bool ICOReader::readHeader() |
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{
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if (iod && !headerRead) {
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startpos = iod->pos(); |
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if (readIconDir(iod, &iconDir)) {
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if (iconDir.idReserved == 0 || iconDir.idType == 1) |
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headerRead = true; |
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} |
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} |
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342 |
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return headerRead; |
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} |
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bool ICOReader::readIconEntry(int index, ICONDIRENTRY *iconEntry) |
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{
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if (iod) {
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349 |
if (iod->seek(startpos + ICONDIR_SIZE + (index * ICONDIRENTRY_SIZE))) {
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return readIconDirEntry(iod, iconEntry); |
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} |
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} |
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return false; |
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} |
|
355 |
||
356 |
||
357 |
||
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bool ICOReader::readBMPHeader(quint32 imageOffset, BMP_INFOHDR * header) |
|
359 |
{
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if (iod) {
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if (iod->seek(startpos + imageOffset)) {
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if (readBMPInfoHeader(iod, header)) {
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return TRUE; |
|
364 |
} |
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365 |
} |
|
366 |
} |
|
367 |
return FALSE; |
|
368 |
} |
|
369 |
||
370 |
void ICOReader::findColorInfo(QImage & image) |
|
371 |
{
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372 |
if (icoAttrib.ncolors > 0) { // set color table
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readColorTable(image); |
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374 |
} else if (icoAttrib.nbits == 16) { // don't support RGB values for 15/16 bpp
|
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image = QImage(); |
|
376 |
} |
|
377 |
} |
|
378 |
||
379 |
void ICOReader::readColorTable(QImage & image) |
|
380 |
{
|
|
381 |
if (iod) {
|
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|
3
41300fa6a67c
Revision: 201003
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
382 |
image.setColorCount(icoAttrib.ncolors); |
| 0 | 383 |
uchar rgb[4]; |
384 |
for (int i=0; i<icoAttrib.ncolors; i++) {
|
|
385 |
if (iod->read((char*)rgb, 4) != 4) {
|
|
386 |
image = QImage(); |
|
387 |
break; |
|
388 |
} |
|
389 |
image.setColor(i, qRgb(rgb[2],rgb[1],rgb[0])); |
|
390 |
} |
|
391 |
} else {
|
|
392 |
image = QImage(); |
|
393 |
} |
|
394 |
} |
|
395 |
||
396 |
void ICOReader::readBMP(QImage & image) |
|
397 |
{
|
|
398 |
if (icoAttrib.nbits == 1) { // 1 bit BMP image
|
|
399 |
read1BitBMP(image); |
|
400 |
} else if (icoAttrib.nbits == 4) { // 4 bit BMP image
|
|
401 |
read4BitBMP(image); |
|
402 |
} else if (icoAttrib.nbits == 8) {
|
|
403 |
read8BitBMP(image); |
|
404 |
} else if (icoAttrib.nbits == 16 || icoAttrib.nbits == 24 || icoAttrib.nbits == 32 ) { // 16,24,32 bit BMP image
|
|
405 |
read16_24_32BMP(image); |
|
406 |
} |
|
407 |
} |
|
408 |
||
409 |
||
410 |
/** |
|
411 |
* NOTE: A 1 bit BMP is only flipped vertically, and not horizontally like all other color depths! |
|
412 |
* (This is the same with the bitmask) |
|
413 |
* |
|
414 |
*/ |
|
415 |
void ICOReader::read1BitBMP(QImage & image) |
|
416 |
{
|
|
417 |
if (iod) {
|
|
418 |
||
419 |
int h = image.height(); |
|
420 |
int bpl = image.bytesPerLine(); |
|
421 |
||
422 |
while (--h >= 0) {
|
|
423 |
if (iod->read((char*)image.scanLine(h),bpl) != bpl) {
|
|
424 |
image = QImage(); |
|
425 |
break; |
|
426 |
} |
|
427 |
} |
|
428 |
} else {
|
|
429 |
image = QImage(); |
|
430 |
} |
|
431 |
} |
|
432 |
||
433 |
void ICOReader::read4BitBMP(QImage & image) |
|
434 |
{
|
|
435 |
if (iod) {
|
|
436 |
||
437 |
int h = icoAttrib.h; |
|
438 |
int buflen = ((icoAttrib.w+7)/8)*4; |
|
439 |
uchar *buf = new uchar[buflen]; |
|
440 |
Q_CHECK_PTR(buf); |
|
441 |
||
442 |
while (--h >= 0) {
|
|
443 |
if (iod->read((char*)buf,buflen) != buflen) {
|
|
444 |
image = QImage(); |
|
445 |
break; |
|
446 |
} |
|
447 |
register uchar *p = image.scanLine(h); |
|
448 |
uchar *b = buf; |
|
449 |
for (int i=0; i<icoAttrib.w/2; i++) { // convert nibbles to bytes
|
|
450 |
*p++ = *b >> 4; |
|
451 |
*p++ = *b++ & 0x0f; |
|
452 |
} |
|
453 |
if (icoAttrib.w & 1) // the last nibble |
|
454 |
*p = *b >> 4; |
|
455 |
} |
|
456 |
||
457 |
delete [] buf; |
|
458 |
||
459 |
} else {
|
|
460 |
image = QImage(); |
|
461 |
} |
|
462 |
} |
|
463 |
||
464 |
void ICOReader::read8BitBMP(QImage & image) |
|
465 |
{
|
|
466 |
if (iod) {
|
|
467 |
||
468 |
int h = icoAttrib.h; |
|
469 |
int bpl = image.bytesPerLine(); |
|
470 |
||
471 |
while (--h >= 0) {
|
|
472 |
if (iod->read((char *)image.scanLine(h), bpl) != bpl) {
|
|
473 |
image = QImage(); |
|
474 |
break; |
|
475 |
} |
|
476 |
} |
|
477 |
} else {
|
|
478 |
image = QImage(); |
|
479 |
} |
|
480 |
} |
|
481 |
||
482 |
void ICOReader::read16_24_32BMP(QImage & image) |
|
483 |
{
|
|
484 |
if (iod) {
|
|
485 |
int h = icoAttrib.h; |
|
486 |
register QRgb *p; |
|
487 |
QRgb *end; |
|
488 |
uchar *buf = new uchar[image.bytesPerLine()]; |
|
489 |
int bpl = ((icoAttrib.w*icoAttrib.nbits+31)/32)*4; |
|
490 |
uchar *b; |
|
491 |
||
492 |
while (--h >= 0) {
|
|
493 |
p = (QRgb *)image.scanLine(h); |
|
494 |
end = p + icoAttrib.w; |
|
495 |
if (iod->read((char *)buf, bpl) != bpl) {
|
|
496 |
image = QImage(); |
|
497 |
break; |
|
498 |
} |
|
499 |
b = buf; |
|
500 |
while (p < end) {
|
|
501 |
if (icoAttrib.nbits == 24) |
|
502 |
*p++ = qRgb(*(b+2), *(b+1), *b); |
|
503 |
else if (icoAttrib.nbits == 32) |
|
504 |
*p++ = qRgba(*(b+2), *(b+1), *b, *(b+3)); |
|
505 |
b += icoAttrib.nbits/8; |
|
506 |
} |
|
507 |
} |
|
508 |
||
509 |
delete[] buf; |
|
510 |
||
511 |
} else {
|
|
512 |
image = QImage(); |
|
513 |
} |
|
514 |
} |
|
515 |
||
516 |
QImage ICOReader::iconAt(int index) |
|
517 |
{
|
|
518 |
QImage img; |
|
519 |
||
520 |
if (count() > index) { // forces header to be read
|
|
521 |
||
522 |
ICONDIRENTRY iconEntry; |
|
523 |
if (readIconEntry(index, &iconEntry)) {
|
|
524 |
||
525 |
static const uchar pngMagicData[] = { 137, 80, 78, 71, 13, 10, 26, 10 };
|
|
526 |
||
527 |
iod->seek(iconEntry.dwImageOffset); |
|
528 |
||
529 |
const QByteArray pngMagic = QByteArray::fromRawData((char*)pngMagicData, sizeof(pngMagicData)); |
|
530 |
const bool isPngImage = (iod->read(pngMagic.size()) == pngMagic); |
|
531 |
||
532 |
if (isPngImage) {
|
|
533 |
iod->seek(iconEntry.dwImageOffset); |
|
534 |
return QImage::fromData(iod->read(iconEntry.dwBytesInRes), "png"); |
|
535 |
} |
|
536 |
||
537 |
BMP_INFOHDR header; |
|
538 |
if (readBMPHeader(iconEntry.dwImageOffset, &header)) {
|
|
539 |
icoAttrib.nbits = header.biBitCount ? header.biBitCount : iconEntry.wBitCount; |
|
540 |
||
541 |
switch (icoAttrib.nbits) {
|
|
542 |
case 32: |
|
543 |
case 24: |
|
544 |
case 16: |
|
545 |
icoAttrib.depth = 32; |
|
546 |
break; |
|
547 |
case 8: |
|
548 |
case 4: |
|
549 |
icoAttrib.depth = 8; |
|
550 |
break; |
|
551 |
default: |
|
552 |
icoAttrib.depth = 1; |
|
553 |
} |
|
554 |
if (icoAttrib.depth == 32) // there's no colormap |
|
555 |
icoAttrib.ncolors = 0; |
|
556 |
else // # colors used |
|
557 |
icoAttrib.ncolors = header.biClrUsed ? header.biClrUsed : 1 << icoAttrib.nbits; |
|
558 |
icoAttrib.w = iconEntry.bWidth; |
|
559 |
icoAttrib.h = iconEntry.bHeight; |
|
560 |
||
561 |
QImage::Format format = QImage::Format_ARGB32; |
|
562 |
if (icoAttrib.nbits == 24) |
|
563 |
format = QImage::Format_RGB32; |
|
564 |
else if (icoAttrib.ncolors == 2) |
|
565 |
format = QImage::Format_Mono; |
|
566 |
else if (icoAttrib.ncolors > 0) |
|
567 |
format = QImage::Format_Indexed8; |
|
568 |
||
569 |
QImage image(icoAttrib.w, icoAttrib.h, format); |
|
570 |
if (!image.isNull()) {
|
|
571 |
findColorInfo(image); |
|
572 |
if (!image.isNull()) {
|
|
573 |
readBMP(image); |
|
574 |
if (!image.isNull()) {
|
|
575 |
QImage mask(image.width(), image.height(), QImage::Format_Mono); |
|
576 |
if (!mask.isNull()) {
|
|
|
3
41300fa6a67c
Revision: 201003
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
577 |
mask.setColorCount(2); |
| 0 | 578 |
mask.setColor(0, qRgba(255,255,255,0xff)); |
579 |
mask.setColor(1, qRgba(0 ,0 ,0 ,0xff)); |
|
580 |
read1BitBMP(mask); |
|
581 |
if (!mask.isNull()) {
|
|
582 |
img = QImage(image.width(), image.height(), QImage::Format_ARGB32 ); |
|
583 |
img = image; |
|
584 |
img.setAlphaChannel(mask); |
|
585 |
// (Luckily, it seems that setAlphaChannel() does not ruin the alpha values |
|
586 |
// of partially transparent pixels in those icons that have that) |
|
587 |
} |
|
588 |
} |
|
589 |
} |
|
590 |
} |
|
591 |
} |
|
592 |
} |
|
593 |
} |
|
594 |
} |
|
595 |
||
596 |
return img; |
|
597 |
} |
|
598 |
||
599 |
||
600 |
/*! |
|
601 |
Reads all the icons from the given \a device, and returns them as |
|
602 |
a list of QImage objects. |
|
603 |
||
604 |
Each image has an alpha channel that represents the mask from the |
|
605 |
corresponding icon. |
|
606 |
||
607 |
\sa write() |
|
608 |
*/ |
|
609 |
QList<QImage> ICOReader::read(QIODevice * device) |
|
610 |
{
|
|
611 |
QList<QImage> images; |
|
612 |
||
613 |
ICOReader reader(device); |
|
614 |
for (int i = 0; i < reader.count(); i++) |
|
615 |
images += reader.iconAt(i); |
|
616 |
||
617 |
return images; |
|
618 |
} |
|
619 |
||
620 |
||
621 |
/*! |
|
622 |
Writes all the QImages in the \a images list to the given \a |
|
623 |
device. Returns true if the images are written successfully; |
|
624 |
otherwise returns false. |
|
625 |
||
626 |
The first image in the list is stored as the first icon in the |
|
627 |
device, and is therefore used as the default icon by applications. |
|
628 |
The alpha channel of each image is converted to a mask for each |
|
629 |
corresponding icon. |
|
630 |
||
631 |
\sa read() |
|
632 |
*/ |
|
633 |
bool ICOReader::write(QIODevice * device, const QList<QImage> & images) |
|
634 |
{
|
|
635 |
bool retValue = false; |
|
636 |
||
637 |
if (images.count()) {
|
|
638 |
||
639 |
qint64 origOffset = device->pos(); |
|
640 |
||
641 |
ICONDIR id; |
|
642 |
id.idReserved = 0; |
|
643 |
id.idType = 1; |
|
644 |
id.idCount = images.count(); |
|
645 |
||
646 |
ICONDIRENTRY * entries = new ICONDIRENTRY[id.idCount]; |
|
647 |
BMP_INFOHDR * bmpHeaders = new BMP_INFOHDR[id.idCount]; |
|
648 |
QByteArray * imageData = new QByteArray[id.idCount]; |
|
649 |
||
650 |
for (int i=0; i<id.idCount; i++) {
|
|
651 |
||
652 |
QImage image = images[i]; |
|
653 |
// Scale down the image if it is larger than 128 pixels in either width or height |
|
654 |
if (image.width() > 128 || image.height() > 128) |
|
655 |
{
|
|
656 |
image = image.scaled(128, 128, Qt::KeepAspectRatio, Qt::SmoothTransformation); |
|
657 |
} |
|
658 |
QImage maskImage(image.width(), image.height(), QImage::Format_Mono); |
|
659 |
image = image.convertToFormat(QImage::Format_ARGB32); |
|
660 |
||
661 |
if (image.hasAlphaChannel()) {
|
|
662 |
maskImage = image.createAlphaMask(); |
|
663 |
} else {
|
|
664 |
maskImage.fill(0xff); |
|
665 |
} |
|
666 |
maskImage = maskImage.convertToFormat(QImage::Format_Mono); |
|
667 |
||
668 |
int nbits = 32; |
|
669 |
int bpl_bmp = ((image.width()*nbits+31)/32)*4; |
|
670 |
||
671 |
entries[i].bColorCount = 0; |
|
672 |
entries[i].bReserved = 0; |
|
673 |
entries[i].wBitCount = nbits; |
|
674 |
entries[i].bHeight = image.height(); |
|
675 |
entries[i].bWidth = image.width(); |
|
676 |
entries[i].dwBytesInRes = BMP_INFOHDR_SIZE + (bpl_bmp * image.height()) |
|
677 |
+ (maskImage.bytesPerLine() * maskImage.height()); |
|
678 |
entries[i].wPlanes = 1; |
|
679 |
if (i == 0) |
|
680 |
entries[i].dwImageOffset = origOffset + ICONDIR_SIZE |
|
681 |
+ (id.idCount * ICONDIRENTRY_SIZE); |
|
682 |
else |
|
683 |
entries[i].dwImageOffset = entries[i-1].dwImageOffset + entries[i-1].dwBytesInRes; |
|
684 |
||
685 |
bmpHeaders[i].biBitCount = entries[i].wBitCount; |
|
686 |
bmpHeaders[i].biClrImportant = 0; |
|
687 |
bmpHeaders[i].biClrUsed = entries[i].bColorCount; |
|
688 |
bmpHeaders[i].biCompression = 0; |
|
689 |
bmpHeaders[i].biHeight = entries[i].bHeight * 2; // 2 is for the mask |
|
690 |
bmpHeaders[i].biPlanes = entries[i].wPlanes; |
|
691 |
bmpHeaders[i].biSize = BMP_INFOHDR_SIZE; |
|
692 |
bmpHeaders[i].biSizeImage = entries[i].dwBytesInRes - BMP_INFOHDR_SIZE; |
|
693 |
bmpHeaders[i].biWidth = entries[i].bWidth; |
|
694 |
bmpHeaders[i].biXPelsPerMeter = 0; |
|
695 |
bmpHeaders[i].biYPelsPerMeter = 0; |
|
696 |
||
697 |
QBuffer buffer(&imageData[i]); |
|
698 |
buffer.open(QIODevice::WriteOnly); |
|
699 |
||
700 |
uchar *buf = new uchar[bpl_bmp]; |
|
701 |
uchar *b; |
|
702 |
memset( buf, 0, bpl_bmp ); |
|
703 |
int y; |
|
704 |
for (y = image.height() - 1; y >= 0; y--) { // write the image bits
|
|
705 |
// 32 bits |
|
706 |
QRgb *p = (QRgb *)image.scanLine(y); |
|
707 |
QRgb *end = p + image.width(); |
|
708 |
b = buf; |
|
709 |
int x = 0; |
|
710 |
while (p < end) {
|
|
711 |
*b++ = qBlue(*p); |
|
712 |
*b++ = qGreen(*p); |
|
713 |
*b++ = qRed(*p); |
|
714 |
*b++ = qAlpha(*p); |
|
715 |
if (qAlpha(*p) > 0) // Even mostly transparent pixels must not be masked away |
|
716 |
maskImage.setPixel(x, y, Qt::color1); // (i.e. createAlphaMask() takes away too much) |
|
717 |
p++; |
|
718 |
x++; |
|
719 |
} |
|
720 |
buffer.write((char*)buf, bpl_bmp); |
|
721 |
} |
|
722 |
delete[] buf; |
|
723 |
||
724 |
maskImage.invertPixels(); // seems as though it needs this |
|
725 |
// NOTE! !! The mask is only flipped vertically - not horizontally !! |
|
726 |
for (y = maskImage.height() - 1; y >= 0; y--) |
|
727 |
buffer.write((char*)maskImage.scanLine(y), maskImage.bytesPerLine()); |
|
728 |
} |
|
729 |
||
730 |
if (writeIconDir(device, id)) {
|
|
731 |
int i; |
|
732 |
bool bOK = true; |
|
733 |
for (i = 0; i < id.idCount && bOK; i++) {
|
|
734 |
bOK = writeIconDirEntry(device, entries[i]); |
|
735 |
} |
|
736 |
if (bOK) {
|
|
737 |
for (i = 0; i < id.idCount && bOK; i++) {
|
|
738 |
bOK = writeBMPInfoHeader(device, bmpHeaders[i]); |
|
739 |
bOK &= (device->write(imageData[i]) == (int) imageData[i].size()); |
|
740 |
} |
|
741 |
retValue = bOK; |
|
742 |
} |
|
743 |
} |
|
744 |
||
745 |
delete [] entries; |
|
746 |
delete [] bmpHeaders; |
|
747 |
delete [] imageData; |
|
748 |
||
749 |
} |
|
750 |
return retValue; |
|
751 |
} |
|
752 |
||
753 |
/*! |
|
754 |
Constructs an instance of QtIcoHandler initialized to use \a device. |
|
755 |
*/ |
|
756 |
QtIcoHandler::QtIcoHandler(QIODevice *device) |
|
757 |
{
|
|
758 |
m_currentIconIndex = 0; |
|
759 |
setDevice(device); |
|
760 |
m_pICOReader = new ICOReader(device); |
|
761 |
} |
|
762 |
||
763 |
/*! |
|
764 |
Destructor for QtIcoHandler. |
|
765 |
*/ |
|
766 |
QtIcoHandler::~QtIcoHandler() |
|
767 |
{
|
|
768 |
delete m_pICOReader; |
|
769 |
} |
|
770 |
||
771 |
/*! |
|
772 |
* Verifies if some values (magic bytes) are set as expected in the header of the file. |
|
773 |
* If the magic bytes were found, it is assumed that the QtIcoHandler can read the file. |
|
774 |
* |
|
775 |
*/ |
|
776 |
bool QtIcoHandler::canRead() const |
|
777 |
{
|
|
778 |
bool bCanRead = false; |
|
779 |
QIODevice *device = QImageIOHandler::device(); |
|
780 |
if (device) {
|
|
781 |
bCanRead = ICOReader::canRead(device); |
|
782 |
if (bCanRead) |
|
783 |
setFormat("ico");
|
|
784 |
} else {
|
|
785 |
qWarning("QtIcoHandler::canRead() called with no device");
|
|
786 |
} |
|
787 |
return bCanRead; |
|
788 |
} |
|
789 |
||
790 |
/*! This static function is used by the plugin code, and is provided for convenience only. |
|
791 |
\a device must be an opened device with pointing to the start of the header data of the ICO file. |
|
792 |
*/ |
|
793 |
bool QtIcoHandler::canRead(QIODevice *device) |
|
794 |
{
|
|
795 |
Q_ASSERT(device); |
|
796 |
return ICOReader::canRead(device); |
|
797 |
} |
|
798 |
||
799 |
/*! \reimp |
|
800 |
||
801 |
*/ |
|
802 |
bool QtIcoHandler::read(QImage *image) |
|
803 |
{
|
|
804 |
bool bSuccess = false; |
|
805 |
QImage img = m_pICOReader->iconAt(m_currentIconIndex); |
|
806 |
||
807 |
// Make sure we only write to \a image when we succeed. |
|
808 |
if (!img.isNull()) {
|
|
809 |
bSuccess = true; |
|
810 |
*image = img; |
|
811 |
} |
|
812 |
||
813 |
return bSuccess; |
|
814 |
} |
|
815 |
||
816 |
||
817 |
/*! \reimp |
|
818 |
||
819 |
*/ |
|
820 |
bool QtIcoHandler::write(const QImage &image) |
|
821 |
{
|
|
822 |
QIODevice *device = QImageIOHandler::device(); |
|
823 |
QList<QImage> imgs; |
|
824 |
imgs.append(image); |
|
825 |
return ICOReader::write(device, imgs); |
|
826 |
} |
|
827 |
||
828 |
/*! |
|
829 |
* Return the common identifier of the format. |
|
830 |
* For ICO format this will return "ico". |
|
831 |
*/ |
|
832 |
QByteArray QtIcoHandler::name() const |
|
833 |
{
|
|
834 |
return "ico"; |
|
835 |
} |
|
836 |
||
837 |
||
838 |
/*! \reimp |
|
839 |
||
840 |
*/ |
|
841 |
int QtIcoHandler::imageCount() const |
|
842 |
{
|
|
843 |
return m_pICOReader->count(); |
|
844 |
} |
|
845 |
||
846 |
/*! \reimp |
|
847 |
||
848 |
*/ |
|
849 |
bool QtIcoHandler::jumpToImage(int imageNumber) |
|
850 |
{
|
|
851 |
if (imageNumber < imageCount()) {
|
|
852 |
m_currentIconIndex = imageNumber; |
|
853 |
} |
|
854 |
||
855 |
return (imageNumber < imageCount()) ? true : false; |
|
856 |
} |
|
857 |
||
858 |
/*! \reimp |
|
859 |
||
860 |
*/ |
|
861 |
bool QtIcoHandler::jumpToNextImage() |
|
862 |
{
|
|
863 |
return jumpToImage(m_currentIconIndex + 1); |
|
864 |
} |
|
865 |