| author | Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com> |
| Thu, 27 May 2010 13:40:48 +0300 | |
| changeset 23 | 89e065397ea6 |
| parent 18 | 2f34d5167611 |
| permissions | -rw-r--r-- |
| 0 | 1 |
/**************************************************************************** |
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** |
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2f34d5167611
Revision: 201011
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
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 QtGui module 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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#include <private/qimagescale_p.h> |
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#include <private/qdrawhelper_p.h> |
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#include "qimage.h" |
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#include "qcolor.h" |
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QT_BEGIN_NAMESPACE |
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namespace QImageScale {
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struct QImageScaleInfo; |
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} |
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typedef void (*qt_qimageScaleFunc)(QImageScale::QImageScaleInfo *isi, unsigned int *dest, |
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int dxx, int dyy, int dx, int dy, int dw, |
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int dh, int dow, int sow); |
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static void qt_qimageScaleAARGB(QImageScale::QImageScaleInfo *isi, unsigned int *dest, |
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int dxx, int dyy, int dx, int dy, int dw, |
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int dh, int dow, int sow); |
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static void qt_qimageScaleAARGBA(QImageScale::QImageScaleInfo *isi, unsigned int *dest, |
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int dxx, int dyy, int dx, int dy, int dw, |
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int dh, int dow, int sow); |
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qt_qimageScaleFunc qt_qimageScaleArgb = qt_qimageScaleAARGBA; |
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qt_qimageScaleFunc qt_qimageScaleRgb = qt_qimageScaleAARGB; |
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/* |
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* Copyright (C) 2004, 2005 Daniel M. Duley |
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* |
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* Redistribution and use in source and binary forms, with or without |
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* modification, are permitted provided that the following conditions |
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* are met: |
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* |
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* 1. Redistributions of source code must retain the above copyright |
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* notice, this list of conditions and the following disclaimer. |
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* 2. Redistributions in binary form must reproduce the above copyright |
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* notice, this list of conditions and the following disclaimer in the |
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* documentation and/or other materials provided with the distribution. |
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* |
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
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* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
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* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
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* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
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* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
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* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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* |
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*/ |
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/* OTHER CREDITS: |
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* |
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* This is the normal smoothscale method, based on Imlib2's smoothscale. |
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* |
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* Originally I took the algorithm used in NetPBM and Qt and added MMX/3dnow |
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* optimizations. It ran in about 1/2 the time as Qt. Then I ported Imlib's |
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* C algorithm and it ran at about the same speed as my MMX optimized one... |
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* Finally I ported Imlib's MMX version and it ran in less than half the |
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* time as my MMX algorithm, (taking only a quarter of the time Qt does). |
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* After further optimization it seems to run at around 1/6th. |
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* |
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* Changes include formatting, namespaces and other C++'ings, removal of old |
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* #ifdef'ed code, and removal of unneeded border calculation code. |
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* |
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* Imlib2 is (C) Carsten Haitzler and various contributors. The MMX code |
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* is by Willem Monsuwe <willem@stack.nl>. All other modifications are |
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* (C) Daniel M. Duley. |
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*/ |
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namespace QImageScale {
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struct QImageScaleInfo {
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int *xpoints; |
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unsigned int **ypoints; |
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int *xapoints, *yapoints; |
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int xup_yup; |
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}; |
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unsigned int** qimageCalcYPoints(unsigned int *src, int sw, int sh, |
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int dh); |
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int* qimageCalcXPoints(int sw, int dw); |
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int* qimageCalcApoints(int s, int d, int up); |
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QImageScaleInfo* qimageFreeScaleInfo(QImageScaleInfo *isi); |
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QImageScaleInfo *qimageCalcScaleInfo(const QImage &img, int sw, int sh, |
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int dw, int dh, char aa); |
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} |
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using namespace QImageScale; |
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// |
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// Code ported from Imlib... |
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// |
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// FIXME: replace with qRed, etc... These work on pointers to pixels, not |
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// pixel values |
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#define A_VAL(p) (qAlpha(*p)) |
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#define R_VAL(p) (qRed(*p)) |
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#define G_VAL(p) (qGreen(*p)) |
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#define B_VAL(p) (qBlue(*p)) |
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#define INV_XAP (256 - xapoints[x]) |
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#define XAP (xapoints[x]) |
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#define INV_YAP (256 - yapoints[dyy + y]) |
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#define YAP (yapoints[dyy + y]) |
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unsigned int** QImageScale::qimageCalcYPoints(unsigned int *src, |
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int sw, int sh, int dh) |
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{
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unsigned int **p; |
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int i, j = 0; |
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int val, inc, rv = 0; |
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if(dh < 0){
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dh = -dh; |
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rv = 1; |
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} |
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p = new unsigned int* [dh+1]; |
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int up = qAbs(dh) >= sh; |
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val = up ? 0x8000 * sh / dh - 0x8000 : 0; |
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inc = (sh << 16) / dh; |
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for(i = 0; i < dh; i++){
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p[j++] = src + qMax(0, val >> 16) * sw; |
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val += inc; |
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} |
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if(rv){
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for(i = dh / 2; --i >= 0; ){
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unsigned int *tmp = p[i]; |
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p[i] = p[dh - i - 1]; |
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p[dh - i - 1] = tmp; |
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} |
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} |
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return(p); |
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} |
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int* QImageScale::qimageCalcXPoints(int sw, int dw) |
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{
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int *p, i, j = 0; |
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int val, inc, rv = 0; |
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if(dw < 0){
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dw = -dw; |
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rv = 1; |
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} |
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p = new int[dw+1]; |
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int up = qAbs(dw) >= sw; |
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val = up ? 0x8000 * sw / dw - 0x8000 : 0; |
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inc = (sw << 16) / dw; |
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for(i = 0; i < dw; i++){
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p[j++] = qMax(0, val >> 16); |
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val += inc; |
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} |
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if(rv){
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for(i = dw / 2; --i >= 0; ){
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int tmp = p[i]; |
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p[i] = p[dw - i - 1]; |
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p[dw - i - 1] = tmp; |
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} |
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} |
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return(p); |
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} |
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int* QImageScale::qimageCalcApoints(int s, int d, int up) |
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{
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int *p, i, j = 0, rv = 0; |
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if(d < 0){
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rv = 1; |
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d = -d; |
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} |
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p = new int[d]; |
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/* scaling up */ |
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if(up){
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int val, inc; |
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val = 0x8000 * s / d - 0x8000; |
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inc = (s << 16) / d; |
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for(i = 0; i < d; i++){
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int pos = val >> 16; |
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if (pos < 0) |
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p[j++] = 0; |
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else if (pos >= (s - 1)) |
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p[j++] = 0; |
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else |
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p[j++] = (val >> 8) - ((val >> 8) & 0xffffff00); |
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val += inc; |
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} |
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} |
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/* scaling down */ |
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else{
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int val, inc, ap, Cp; |
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val = 0; |
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inc = (s << 16) / d; |
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Cp = ((d << 14) / s) + 1; |
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for(i = 0; i < d; i++){
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ap = ((0x100 - ((val >> 8) & 0xff)) * Cp) >> 8; |
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p[j] = ap | (Cp << 16); |
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j++; |
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val += inc; |
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} |
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} |
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if(rv){
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int tmp; |
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for(i = d / 2; --i >= 0; ){
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tmp = p[i]; |
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p[i] = p[d - i - 1]; |
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p[d - i - 1] = tmp; |
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} |
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} |
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return(p); |
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} |
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QImageScaleInfo* QImageScale::qimageFreeScaleInfo(QImageScaleInfo *isi) |
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{
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if(isi){
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delete[] isi->xpoints; |
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delete[] isi->ypoints; |
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delete[] isi->xapoints; |
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delete[] isi->yapoints; |
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delete isi; |
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} |
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return 0; |
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} |
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QImageScaleInfo* QImageScale::qimageCalcScaleInfo(const QImage &img, |
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int sw, int sh, |
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int dw, int dh, char aa) |
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{
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QImageScaleInfo *isi; |
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int scw, sch; |
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scw = dw * qlonglong(img.width()) / sw; |
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sch = dh * qlonglong(img.height()) / sh; |
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isi = new QImageScaleInfo; |
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if(!isi) |
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return 0; |
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memset(isi, 0, sizeof(QImageScaleInfo)); |
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isi->xup_yup = (qAbs(dw) >= sw) + ((qAbs(dh) >= sh) << 1); |
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isi->xpoints = qimageCalcXPoints(img.width(), scw); |
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if(!isi->xpoints) |
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return(qimageFreeScaleInfo(isi)); |
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isi->ypoints = qimageCalcYPoints((unsigned int *)img.scanLine(0), |
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img.bytesPerLine() / 4, img.height(), sch); |
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if (!isi->ypoints) |
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return(qimageFreeScaleInfo(isi)); |
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if(aa) {
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isi->xapoints = qimageCalcApoints(img.width(), scw, isi->xup_yup & 1); |
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if(!isi->xapoints) |
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return(qimageFreeScaleInfo(isi)); |
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isi->yapoints = qimageCalcApoints(img.height(), sch, isi->xup_yup & 2); |
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if(!isi->yapoints) |
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return(qimageFreeScaleInfo(isi)); |
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} |
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return(isi); |
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} |
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/* FIXME: NEED to optimise ScaleAARGBA - currently its "ok" but needs work*/ |
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/* scale by area sampling */ |
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static void qt_qimageScaleAARGBA(QImageScaleInfo *isi, unsigned int *dest, |
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int dxx, int dyy, int dx, int dy, int dw, |
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int dh, int dow, int sow) |
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{
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unsigned int *sptr, *dptr; |
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int x, y, end; |
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unsigned int **ypoints = isi->ypoints; |
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int *xpoints = isi->xpoints; |
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int *xapoints = isi->xapoints; |
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int *yapoints = isi->yapoints; |
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end = dxx + dw; |
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/* scaling up both ways */ |
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if(isi->xup_yup == 3){
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/* go through every scanline in the output buffer */ |
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for(y = 0; y < dh; y++){
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/* calculate the source line we'll scan from */ |
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dptr = dest + dx + ((y + dy) * dow); |
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sptr = ypoints[dyy + y]; |
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if(YAP > 0){
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for(x = dxx; x < end; x++){
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int r, g, b, a; |
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int rr, gg, bb, aa; |
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unsigned int *pix; |
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if(XAP > 0){
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pix = ypoints[dyy + y] + xpoints[x]; |
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r = R_VAL(pix) * INV_XAP; |
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g = G_VAL(pix) * INV_XAP; |
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b = B_VAL(pix) * INV_XAP; |
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a = A_VAL(pix) * INV_XAP; |
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pix++; |
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r += R_VAL(pix) * XAP; |
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g += G_VAL(pix) * XAP; |
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b += B_VAL(pix) * XAP; |
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a += A_VAL(pix) * XAP; |
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pix += sow; |
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rr = R_VAL(pix) * XAP; |
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gg = G_VAL(pix) * XAP; |
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bb = B_VAL(pix) * XAP; |
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aa = A_VAL(pix) * XAP; |
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pix--; |
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rr += R_VAL(pix) * INV_XAP; |
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gg += G_VAL(pix) * INV_XAP; |
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bb += B_VAL(pix) * INV_XAP; |
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aa += A_VAL(pix) * INV_XAP; |
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r = ((rr * YAP) + (r * INV_YAP)) >> 16; |
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g = ((gg * YAP) + (g * INV_YAP)) >> 16; |
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b = ((bb * YAP) + (b * INV_YAP)) >> 16; |
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a = ((aa * YAP) + (a * INV_YAP)) >> 16; |
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*dptr++ = qRgba(r, g, b, a); |
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} |
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else{
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pix = ypoints[dyy + y] + xpoints[x]; |
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r = R_VAL(pix) * INV_YAP; |
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g = G_VAL(pix) * INV_YAP; |
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b = B_VAL(pix) * INV_YAP; |
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a = A_VAL(pix) * INV_YAP; |
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pix += sow; |
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r += R_VAL(pix) * YAP; |
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g += G_VAL(pix) * YAP; |
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b += B_VAL(pix) * YAP; |
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a += A_VAL(pix) * YAP; |
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r >>= 8; |
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g >>= 8; |
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b >>= 8; |
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a >>= 8; |
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*dptr++ = qRgba(r, g, b, a); |
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} |
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} |
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} |
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else{
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for(x = dxx; x < end; x++){
|
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int r, g, b, a; |
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unsigned int *pix; |
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||
386 |
if(XAP > 0){
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pix = ypoints[dyy + y] + xpoints[x]; |
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r = R_VAL(pix) * INV_XAP; |
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g = G_VAL(pix) * INV_XAP; |
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b = B_VAL(pix) * INV_XAP; |
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a = A_VAL(pix) * INV_XAP; |
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pix++; |
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r += R_VAL(pix) * XAP; |
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g += G_VAL(pix) * XAP; |
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b += B_VAL(pix) * XAP; |
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a += A_VAL(pix) * XAP; |
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r >>= 8; |
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g >>= 8; |
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b >>= 8; |
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a >>= 8; |
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*dptr++ = qRgba(r, g, b, a); |
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} |
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else |
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*dptr++ = sptr[xpoints[x] ]; |
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} |
|
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} |
|
407 |
} |
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} |
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/* if we're scaling down vertically */ |
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410 |
else if(isi->xup_yup == 1){
|
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411 |
/*\ 'Correct' version, with math units prepared for MMXification \*/ |
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412 |
int Cy, j; |
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413 |
unsigned int *pix; |
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414 |
int r, g, b, a, rr, gg, bb, aa; |
|
415 |
int yap; |
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416 |
||
417 |
/* go through every scanline in the output buffer */ |
|
418 |
for(y = 0; y < dh; y++){
|
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419 |
Cy = YAP >> 16; |
|
420 |
yap = YAP & 0xffff; |
|
421 |
||
422 |
dptr = dest + dx + ((y + dy) * dow); |
|
423 |
for(x = dxx; x < end; x++){
|
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424 |
pix = ypoints[dyy + y] + xpoints[x]; |
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425 |
r = R_VAL(pix) * yap; |
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426 |
g = G_VAL(pix) * yap; |
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427 |
b = B_VAL(pix) * yap; |
|
428 |
a = A_VAL(pix) * yap; |
|
429 |
for(j = (1 << 14) - yap; j > Cy; j -= Cy){
|
|
430 |
pix += sow; |
|
431 |
r += R_VAL(pix) * Cy; |
|
432 |
g += G_VAL(pix) * Cy; |
|
433 |
b += B_VAL(pix) * Cy; |
|
434 |
a += A_VAL(pix) * Cy; |
|
435 |
} |
|
436 |
if(j > 0){
|
|
437 |
pix += sow; |
|
438 |
r += R_VAL(pix) * j; |
|
439 |
g += G_VAL(pix) * j; |
|
440 |
b += B_VAL(pix) * j; |
|
441 |
a += A_VAL(pix) * j; |
|
442 |
} |
|
443 |
if(XAP > 0){
|
|
444 |
pix = ypoints[dyy + y] + xpoints[x] + 1; |
|
445 |
rr = R_VAL(pix) * yap; |
|
446 |
gg = G_VAL(pix) * yap; |
|
447 |
bb = B_VAL(pix) * yap; |
|
448 |
aa = A_VAL(pix) * yap; |
|
449 |
for(j = (1 << 14) - yap; j > Cy; j -= Cy){
|
|
450 |
pix += sow; |
|
451 |
rr += R_VAL(pix) * Cy; |
|
452 |
gg += G_VAL(pix) * Cy; |
|
453 |
bb += B_VAL(pix) * Cy; |
|
454 |
aa += A_VAL(pix) * Cy; |
|
455 |
} |
|
456 |
if(j > 0){
|
|
457 |
pix += sow; |
|
458 |
rr += R_VAL(pix) * j; |
|
459 |
gg += G_VAL(pix) * j; |
|
460 |
bb += B_VAL(pix) * j; |
|
461 |
aa += A_VAL(pix) * j; |
|
462 |
} |
|
463 |
r = r * INV_XAP; |
|
464 |
g = g * INV_XAP; |
|
465 |
b = b * INV_XAP; |
|
466 |
a = a * INV_XAP; |
|
467 |
r = (r + ((rr * XAP))) >> 12; |
|
468 |
g = (g + ((gg * XAP))) >> 12; |
|
469 |
b = (b + ((bb * XAP))) >> 12; |
|
470 |
a = (a + ((aa * XAP))) >> 12; |
|
471 |
} |
|
472 |
else{
|
|
473 |
r >>= 4; |
|
474 |
g >>= 4; |
|
475 |
b >>= 4; |
|
476 |
a >>= 4; |
|
477 |
} |
|
478 |
*dptr = qRgba(r >> 10, g >> 10, b >> 10, a >> 10); |
|
479 |
dptr++; |
|
480 |
} |
|
481 |
} |
|
482 |
} |
|
483 |
/* if we're scaling down horizontally */ |
|
484 |
else if(isi->xup_yup == 2){
|
|
485 |
/*\ 'Correct' version, with math units prepared for MMXification \*/ |
|
486 |
int Cx, j; |
|
487 |
unsigned int *pix; |
|
488 |
int r, g, b, a, rr, gg, bb, aa; |
|
489 |
int xap; |
|
490 |
||
491 |
/* go through every scanline in the output buffer */ |
|
492 |
for(y = 0; y < dh; y++){
|
|
493 |
dptr = dest + dx + ((y + dy) * dow); |
|
494 |
for(x = dxx; x < end; x++){
|
|
495 |
Cx = XAP >> 16; |
|
496 |
xap = XAP & 0xffff; |
|
497 |
||
498 |
pix = ypoints[dyy + y] + xpoints[x]; |
|
499 |
r = R_VAL(pix) * xap; |
|
500 |
g = G_VAL(pix) * xap; |
|
501 |
b = B_VAL(pix) * xap; |
|
502 |
a = A_VAL(pix) * xap; |
|
503 |
for(j = (1 << 14) - xap; j > Cx; j -= Cx){
|
|
504 |
pix++; |
|
505 |
r += R_VAL(pix) * Cx; |
|
506 |
g += G_VAL(pix) * Cx; |
|
507 |
b += B_VAL(pix) * Cx; |
|
508 |
a += A_VAL(pix) * Cx; |
|
509 |
} |
|
510 |
if(j > 0){
|
|
511 |
pix++; |
|
512 |
r += R_VAL(pix) * j; |
|
513 |
g += G_VAL(pix) * j; |
|
514 |
b += B_VAL(pix) * j; |
|
515 |
a += A_VAL(pix) * j; |
|
516 |
} |
|
517 |
if(YAP > 0){
|
|
518 |
pix = ypoints[dyy + y] + xpoints[x] + sow; |
|
519 |
rr = R_VAL(pix) * xap; |
|
520 |
gg = G_VAL(pix) * xap; |
|
521 |
bb = B_VAL(pix) * xap; |
|
522 |
aa = A_VAL(pix) * xap; |
|
523 |
for(j = (1 << 14) - xap; j > Cx; j -= Cx){
|
|
524 |
pix++; |
|
525 |
rr += R_VAL(pix) * Cx; |
|
526 |
gg += G_VAL(pix) * Cx; |
|
527 |
bb += B_VAL(pix) * Cx; |
|
528 |
aa += A_VAL(pix) * Cx; |
|
529 |
} |
|
530 |
if(j > 0){
|
|
531 |
pix++; |
|
532 |
rr += R_VAL(pix) * j; |
|
533 |
gg += G_VAL(pix) * j; |
|
534 |
bb += B_VAL(pix) * j; |
|
535 |
aa += A_VAL(pix) * j; |
|
536 |
} |
|
537 |
r = r * INV_YAP; |
|
538 |
g = g * INV_YAP; |
|
539 |
b = b * INV_YAP; |
|
540 |
a = a * INV_YAP; |
|
541 |
r = (r + ((rr * YAP))) >> 12; |
|
542 |
g = (g + ((gg * YAP))) >> 12; |
|
543 |
b = (b + ((bb * YAP))) >> 12; |
|
544 |
a = (a + ((aa * YAP))) >> 12; |
|
545 |
} |
|
546 |
else{
|
|
547 |
r >>= 4; |
|
548 |
g >>= 4; |
|
549 |
b >>= 4; |
|
550 |
a >>= 4; |
|
551 |
} |
|
552 |
*dptr = qRgba(r >> 10, g >> 10, b >> 10, a >> 10); |
|
553 |
dptr++; |
|
554 |
} |
|
555 |
} |
|
556 |
} |
|
557 |
/* if we're scaling down horizontally & vertically */ |
|
558 |
else{
|
|
559 |
/*\ 'Correct' version, with math units prepared for MMXification: |
|
560 |
|*| The operation 'b = (b * c) >> 16' translates to pmulhw, |
|
561 |
|*| so the operation 'b = (b * c) >> d' would translate to |
|
562 |
|*| psllw (16 - d), %mmb; pmulh %mmc, %mmb |
|
563 |
\*/ |
|
564 |
int Cx, Cy, i, j; |
|
565 |
unsigned int *pix; |
|
566 |
int a, r, g, b, ax, rx, gx, bx; |
|
567 |
int xap, yap; |
|
568 |
||
569 |
for(y = 0; y < dh; y++){
|
|
570 |
Cy = YAP >> 16; |
|
571 |
yap = YAP & 0xffff; |
|
572 |
||
573 |
dptr = dest + dx + ((y + dy) * dow); |
|
574 |
for(x = dxx; x < end; x++){
|
|
575 |
Cx = XAP >> 16; |
|
576 |
xap = XAP & 0xffff; |
|
577 |
||
578 |
sptr = ypoints[dyy + y] + xpoints[x]; |
|
579 |
pix = sptr; |
|
580 |
sptr += sow; |
|
581 |
rx = R_VAL(pix) * xap; |
|
582 |
gx = G_VAL(pix) * xap; |
|
583 |
bx = B_VAL(pix) * xap; |
|
584 |
ax = A_VAL(pix) * xap; |
|
585 |
||
586 |
pix++; |
|
587 |
for(i = (1 << 14) - xap; i > Cx; i -= Cx){
|
|
588 |
rx += R_VAL(pix) * Cx; |
|
589 |
gx += G_VAL(pix) * Cx; |
|
590 |
bx += B_VAL(pix) * Cx; |
|
591 |
ax += A_VAL(pix) * Cx; |
|
592 |
pix++; |
|
593 |
} |
|
594 |
if(i > 0){
|
|
595 |
rx += R_VAL(pix) * i; |
|
596 |
gx += G_VAL(pix) * i; |
|
597 |
bx += B_VAL(pix) * i; |
|
598 |
ax += A_VAL(pix) * i; |
|
599 |
} |
|
600 |
||
601 |
r = (rx >> 5) * yap; |
|
602 |
g = (gx >> 5) * yap; |
|
603 |
b = (bx >> 5) * yap; |
|
604 |
a = (ax >> 5) * yap; |
|
605 |
||
606 |
for(j = (1 << 14) - yap; j > Cy; j -= Cy){
|
|
607 |
pix = sptr; |
|
608 |
sptr += sow; |
|
609 |
rx = R_VAL(pix) * xap; |
|
610 |
gx = G_VAL(pix) * xap; |
|
611 |
bx = B_VAL(pix) * xap; |
|
612 |
ax = A_VAL(pix) * xap; |
|
613 |
pix++; |
|
614 |
for(i = (1 << 14) - xap; i > Cx; i -= Cx){
|
|
615 |
rx += R_VAL(pix) * Cx; |
|
616 |
gx += G_VAL(pix) * Cx; |
|
617 |
bx += B_VAL(pix) * Cx; |
|
618 |
ax += A_VAL(pix) * Cx; |
|
619 |
pix++; |
|
620 |
} |
|
621 |
if(i > 0){
|
|
622 |
rx += R_VAL(pix) * i; |
|
623 |
gx += G_VAL(pix) * i; |
|
624 |
bx += B_VAL(pix) * i; |
|
625 |
ax += A_VAL(pix) * i; |
|
626 |
} |
|
627 |
||
628 |
r += (rx >> 5) * Cy; |
|
629 |
g += (gx >> 5) * Cy; |
|
630 |
b += (bx >> 5) * Cy; |
|
631 |
a += (ax >> 5) * Cy; |
|
632 |
} |
|
633 |
if(j > 0){
|
|
634 |
pix = sptr; |
|
635 |
sptr += sow; |
|
636 |
rx = R_VAL(pix) * xap; |
|
637 |
gx = G_VAL(pix) * xap; |
|
638 |
bx = B_VAL(pix) * xap; |
|
639 |
ax = A_VAL(pix) * xap; |
|
640 |
pix++; |
|
641 |
for(i = (1 << 14) - xap; i > Cx; i -= Cx){
|
|
642 |
rx += R_VAL(pix) * Cx; |
|
643 |
gx += G_VAL(pix) * Cx; |
|
644 |
bx += B_VAL(pix) * Cx; |
|
645 |
ax += A_VAL(pix) * Cx; |
|
646 |
pix++; |
|
647 |
} |
|
648 |
if(i > 0){
|
|
649 |
rx += R_VAL(pix) * i; |
|
650 |
gx += G_VAL(pix) * i; |
|
651 |
bx += B_VAL(pix) * i; |
|
652 |
ax += A_VAL(pix) * i; |
|
653 |
} |
|
654 |
||
655 |
r += (rx >> 5) * j; |
|
656 |
g += (gx >> 5) * j; |
|
657 |
b += (bx >> 5) * j; |
|
658 |
a += (ax >> 5) * j; |
|
659 |
} |
|
660 |
||
661 |
*dptr = qRgba(r >> 23, g >> 23, b >> 23, a >> 23); |
|
662 |
dptr++; |
|
663 |
} |
|
664 |
} |
|
665 |
} |
|
666 |
} |
|
667 |
||
668 |
/* scale by area sampling - IGNORE the ALPHA byte*/ |
|
669 |
static void qt_qimageScaleAARGB(QImageScaleInfo *isi, unsigned int *dest, |
|
670 |
int dxx, int dyy, int dx, int dy, int dw, |
|
671 |
int dh, int dow, int sow) |
|
672 |
{
|
|
673 |
unsigned int *sptr, *dptr; |
|
674 |
int x, y, end; |
|
675 |
unsigned int **ypoints = isi->ypoints; |
|
676 |
int *xpoints = isi->xpoints; |
|
677 |
int *xapoints = isi->xapoints; |
|
678 |
int *yapoints = isi->yapoints; |
|
679 |
||
680 |
end = dxx + dw; |
|
681 |
/* scaling up both ways */ |
|
682 |
if(isi->xup_yup == 3){
|
|
683 |
/* go through every scanline in the output buffer */ |
|
684 |
for(y = 0; y < dh; y++){
|
|
685 |
/* calculate the source line we'll scan from */ |
|
686 |
dptr = dest + dx + ((y + dy) * dow); |
|
687 |
sptr = ypoints[dyy + y]; |
|
688 |
if(YAP > 0){
|
|
689 |
for(x = dxx; x < end; x++){
|
|
690 |
int r = 0, g = 0, b = 0; |
|
691 |
int rr = 0, gg = 0, bb = 0; |
|
692 |
unsigned int *pix; |
|
693 |
||
694 |
if(XAP > 0){
|
|
695 |
pix = ypoints[dyy + y] + xpoints[x]; |
|
696 |
r = R_VAL(pix) * INV_XAP; |
|
697 |
g = G_VAL(pix) * INV_XAP; |
|
698 |
b = B_VAL(pix) * INV_XAP; |
|
699 |
pix++; |
|
700 |
r += R_VAL(pix) * XAP; |
|
701 |
g += G_VAL(pix) * XAP; |
|
702 |
b += B_VAL(pix) * XAP; |
|
703 |
pix += sow; |
|
704 |
rr = R_VAL(pix) * XAP; |
|
705 |
gg = G_VAL(pix) * XAP; |
|
706 |
bb = B_VAL(pix) * XAP; |
|
707 |
pix --; |
|
708 |
rr += R_VAL(pix) * INV_XAP; |
|
709 |
gg += G_VAL(pix) * INV_XAP; |
|
710 |
bb += B_VAL(pix) * INV_XAP; |
|
711 |
r = ((rr * YAP) + (r * INV_YAP)) >> 16; |
|
712 |
g = ((gg * YAP) + (g * INV_YAP)) >> 16; |
|
713 |
b = ((bb * YAP) + (b * INV_YAP)) >> 16; |
|
714 |
*dptr++ = qRgba(r, g, b, 0xff); |
|
715 |
} |
|
716 |
else{
|
|
717 |
pix = ypoints[dyy + y] + xpoints[x]; |
|
718 |
r = R_VAL(pix) * INV_YAP; |
|
719 |
g = G_VAL(pix) * INV_YAP; |
|
720 |
b = B_VAL(pix) * INV_YAP; |
|
721 |
pix += sow; |
|
722 |
r += R_VAL(pix) * YAP; |
|
723 |
g += G_VAL(pix) * YAP; |
|
724 |
b += B_VAL(pix) * YAP; |
|
725 |
r >>= 8; |
|
726 |
g >>= 8; |
|
727 |
b >>= 8; |
|
728 |
*dptr++ = qRgba(r, g, b, 0xff); |
|
729 |
} |
|
730 |
} |
|
731 |
} |
|
732 |
else{
|
|
733 |
for(x = dxx; x < end; x++){
|
|
734 |
int r = 0, g = 0, b = 0; |
|
735 |
unsigned int *pix; |
|
736 |
||
737 |
if(XAP > 0){
|
|
738 |
pix = ypoints[dyy + y] + xpoints[x]; |
|
739 |
r = R_VAL(pix) * INV_XAP; |
|
740 |
g = G_VAL(pix) * INV_XAP; |
|
741 |
b = B_VAL(pix) * INV_XAP; |
|
742 |
pix++; |
|
743 |
r += R_VAL(pix) * XAP; |
|
744 |
g += G_VAL(pix) * XAP; |
|
745 |
b += B_VAL(pix) * XAP; |
|
746 |
r >>= 8; |
|
747 |
g >>= 8; |
|
748 |
b >>= 8; |
|
749 |
*dptr++ = qRgba(r, g, b, 0xff); |
|
750 |
} |
|
751 |
else |
|
752 |
*dptr++ = sptr[xpoints[x] ]; |
|
753 |
} |
|
754 |
} |
|
755 |
} |
|
756 |
} |
|
757 |
/* if we're scaling down vertically */ |
|
758 |
else if(isi->xup_yup == 1){
|
|
759 |
/*\ 'Correct' version, with math units prepared for MMXification \*/ |
|
760 |
int Cy, j; |
|
761 |
unsigned int *pix; |
|
762 |
int r, g, b, rr, gg, bb; |
|
763 |
int yap; |
|
764 |
||
765 |
/* go through every scanline in the output buffer */ |
|
766 |
for(y = 0; y < dh; y++){
|
|
767 |
Cy = YAP >> 16; |
|
768 |
yap = YAP & 0xffff; |
|
769 |
||
770 |
dptr = dest + dx + ((y + dy) * dow); |
|
771 |
for(x = dxx; x < end; x++){
|
|
772 |
pix = ypoints[dyy + y] + xpoints[x]; |
|
773 |
r = R_VAL(pix) * yap; |
|
774 |
g = G_VAL(pix) * yap; |
|
775 |
b = B_VAL(pix) * yap; |
|
776 |
pix += sow; |
|
777 |
for(j = (1 << 14) - yap; j > Cy; j -= Cy){
|
|
778 |
r += R_VAL(pix) * Cy; |
|
779 |
g += G_VAL(pix) * Cy; |
|
780 |
b += B_VAL(pix) * Cy; |
|
781 |
pix += sow; |
|
782 |
} |
|
783 |
if(j > 0){
|
|
784 |
r += R_VAL(pix) * j; |
|
785 |
g += G_VAL(pix) * j; |
|
786 |
b += B_VAL(pix) * j; |
|
787 |
} |
|
788 |
if(XAP > 0){
|
|
789 |
pix = ypoints[dyy + y] + xpoints[x] + 1; |
|
790 |
rr = R_VAL(pix) * yap; |
|
791 |
gg = G_VAL(pix) * yap; |
|
792 |
bb = B_VAL(pix) * yap; |
|
793 |
pix += sow; |
|
794 |
for(j = (1 << 14) - yap; j > Cy; j -= Cy){
|
|
795 |
rr += R_VAL(pix) * Cy; |
|
796 |
gg += G_VAL(pix) * Cy; |
|
797 |
bb += B_VAL(pix) * Cy; |
|
798 |
pix += sow; |
|
799 |
} |
|
800 |
if(j > 0){
|
|
801 |
rr += R_VAL(pix) * j; |
|
802 |
gg += G_VAL(pix) * j; |
|
803 |
bb += B_VAL(pix) * j; |
|
804 |
} |
|
805 |
r = r * INV_XAP; |
|
806 |
g = g * INV_XAP; |
|
807 |
b = b * INV_XAP; |
|
808 |
r = (r + ((rr * XAP))) >> 12; |
|
809 |
g = (g + ((gg * XAP))) >> 12; |
|
810 |
b = (b + ((bb * XAP))) >> 12; |
|
811 |
} |
|
812 |
else{
|
|
813 |
r >>= 4; |
|
814 |
g >>= 4; |
|
815 |
b >>= 4; |
|
816 |
} |
|
817 |
*dptr = qRgba(r >> 10, g >> 10, b >> 10, 0xff); |
|
818 |
dptr++; |
|
819 |
} |
|
820 |
} |
|
821 |
} |
|
822 |
/* if we're scaling down horizontally */ |
|
823 |
else if(isi->xup_yup == 2){
|
|
824 |
/*\ 'Correct' version, with math units prepared for MMXification \*/ |
|
825 |
int Cx, j; |
|
826 |
unsigned int *pix; |
|
827 |
int r, g, b, rr, gg, bb; |
|
828 |
int xap; |
|
829 |
||
830 |
/* go through every scanline in the output buffer */ |
|
831 |
for(y = 0; y < dh; y++){
|
|
832 |
dptr = dest + dx + ((y + dy) * dow); |
|
833 |
for(x = dxx; x < end; x++){
|
|
834 |
Cx = XAP >> 16; |
|
835 |
xap = XAP & 0xffff; |
|
836 |
||
837 |
pix = ypoints[dyy + y] + xpoints[x]; |
|
838 |
r = R_VAL(pix) * xap; |
|
839 |
g = G_VAL(pix) * xap; |
|
840 |
b = B_VAL(pix) * xap; |
|
841 |
pix++; |
|
842 |
for(j = (1 << 14) - xap; j > Cx; j -= Cx){
|
|
843 |
r += R_VAL(pix) * Cx; |
|
844 |
g += G_VAL(pix) * Cx; |
|
845 |
b += B_VAL(pix) * Cx; |
|
846 |
pix++; |
|
847 |
} |
|
848 |
if(j > 0){
|
|
849 |
r += R_VAL(pix) * j; |
|
850 |
g += G_VAL(pix) * j; |
|
851 |
b += B_VAL(pix) * j; |
|
852 |
} |
|
853 |
if(YAP > 0){
|
|
854 |
pix = ypoints[dyy + y] + xpoints[x] + sow; |
|
855 |
rr = R_VAL(pix) * xap; |
|
856 |
gg = G_VAL(pix) * xap; |
|
857 |
bb = B_VAL(pix) * xap; |
|
858 |
pix++; |
|
859 |
for(j = (1 << 14) - xap; j > Cx; j -= Cx){
|
|
860 |
rr += R_VAL(pix) * Cx; |
|
861 |
gg += G_VAL(pix) * Cx; |
|
862 |
bb += B_VAL(pix) * Cx; |
|
863 |
pix++; |
|
864 |
} |
|
865 |
if(j > 0){
|
|
866 |
rr += R_VAL(pix) * j; |
|
867 |
gg += G_VAL(pix) * j; |
|
868 |
bb += B_VAL(pix) * j; |
|
869 |
} |
|
870 |
r = r * INV_YAP; |
|
871 |
g = g * INV_YAP; |
|
872 |
b = b * INV_YAP; |
|
873 |
r = (r + ((rr * YAP))) >> 12; |
|
874 |
g = (g + ((gg * YAP))) >> 12; |
|
875 |
b = (b + ((bb * YAP))) >> 12; |
|
876 |
} |
|
877 |
else{
|
|
878 |
r >>= 4; |
|
879 |
g >>= 4; |
|
880 |
b >>= 4; |
|
881 |
} |
|
882 |
*dptr = qRgba(r >> 10, g >> 10, b >> 10, 0xff); |
|
883 |
dptr++; |
|
884 |
} |
|
885 |
} |
|
886 |
} |
|
887 |
/* fully optimized (i think) - onyl change of algorithm can help */ |
|
888 |
/* if we're scaling down horizontally & vertically */ |
|
889 |
else{
|
|
890 |
/*\ 'Correct' version, with math units prepared for MMXification \*/ |
|
891 |
int Cx, Cy, i, j; |
|
892 |
unsigned int *pix; |
|
893 |
int r, g, b, rx, gx, bx; |
|
894 |
int xap, yap; |
|
895 |
||
896 |
for(y = 0; y < dh; y++){
|
|
897 |
Cy = YAP >> 16; |
|
898 |
yap = YAP & 0xffff; |
|
899 |
||
900 |
dptr = dest + dx + ((y + dy) * dow); |
|
901 |
for(x = dxx; x < end; x++){
|
|
902 |
Cx = XAP >> 16; |
|
903 |
xap = XAP & 0xffff; |
|
904 |
||
905 |
sptr = ypoints[dyy + y] + xpoints[x]; |
|
906 |
pix = sptr; |
|
907 |
sptr += sow; |
|
908 |
rx = R_VAL(pix) * xap; |
|
909 |
gx = G_VAL(pix) * xap; |
|
910 |
bx = B_VAL(pix) * xap; |
|
911 |
pix++; |
|
912 |
for(i = (1 << 14) - xap; i > Cx; i -= Cx){
|
|
913 |
rx += R_VAL(pix) * Cx; |
|
914 |
gx += G_VAL(pix) * Cx; |
|
915 |
bx += B_VAL(pix) * Cx; |
|
916 |
pix++; |
|
917 |
} |
|
918 |
if(i > 0){
|
|
919 |
rx += R_VAL(pix) * i; |
|
920 |
gx += G_VAL(pix) * i; |
|
921 |
bx += B_VAL(pix) * i; |
|
922 |
} |
|
923 |
||
924 |
r = (rx >> 5) * yap; |
|
925 |
g = (gx >> 5) * yap; |
|
926 |
b = (bx >> 5) * yap; |
|
927 |
||
928 |
for(j = (1 << 14) - yap; j > Cy; j -= Cy){
|
|
929 |
pix = sptr; |
|
930 |
sptr += sow; |
|
931 |
rx = R_VAL(pix) * xap; |
|
932 |
gx = G_VAL(pix) * xap; |
|
933 |
bx = B_VAL(pix) * xap; |
|
934 |
pix++; |
|
935 |
for(i = (1 << 14) - xap; i > Cx; i -= Cx){
|
|
936 |
rx += R_VAL(pix) * Cx; |
|
937 |
gx += G_VAL(pix) * Cx; |
|
938 |
bx += B_VAL(pix) * Cx; |
|
939 |
pix++; |
|
940 |
} |
|
941 |
if(i > 0){
|
|
942 |
rx += R_VAL(pix) * i; |
|
943 |
gx += G_VAL(pix) * i; |
|
944 |
bx += B_VAL(pix) * i; |
|
945 |
} |
|
946 |
||
947 |
r += (rx >> 5) * Cy; |
|
948 |
g += (gx >> 5) * Cy; |
|
949 |
b += (bx >> 5) * Cy; |
|
950 |
} |
|
951 |
if(j > 0){
|
|
952 |
pix = sptr; |
|
953 |
sptr += sow; |
|
954 |
rx = R_VAL(pix) * xap; |
|
955 |
gx = G_VAL(pix) * xap; |
|
956 |
bx = B_VAL(pix) * xap; |
|
957 |
pix++; |
|
958 |
for(i = (1 << 14) - xap; i > Cx; i -= Cx){
|
|
959 |
rx += R_VAL(pix) * Cx; |
|
960 |
gx += G_VAL(pix) * Cx; |
|
961 |
bx += B_VAL(pix) * Cx; |
|
962 |
pix++; |
|
963 |
} |
|
964 |
if(i > 0){
|
|
965 |
rx += R_VAL(pix) * i; |
|
966 |
gx += G_VAL(pix) * i; |
|
967 |
bx += B_VAL(pix) * i; |
|
968 |
} |
|
969 |
||
970 |
r += (rx >> 5) * j; |
|
971 |
g += (gx >> 5) * j; |
|
972 |
b += (bx >> 5) * j; |
|
973 |
} |
|
974 |
||
975 |
*dptr = qRgb(r >> 23, g >> 23, b >> 23); |
|
976 |
dptr++; |
|
977 |
} |
|
978 |
} |
|
979 |
} |
|
980 |
} |
|
981 |
||
982 |
#if 0 |
|
983 |
static void qt_qimageScaleAARGBASetup(QImageScaleInfo *isi, unsigned int *dest, |
|
984 |
int dxx, int dyy, int dx, int dy, int dw, |
|
985 |
int dh, int dow, int sow) |
|
986 |
{
|
|
987 |
qInitDrawhelperAsm(); |
|
988 |
qt_qimageScaleAARGBA(isi, dest, dxx, dyy, dx, dy, dw, dh, dow, sow); |
|
989 |
} |
|
990 |
||
991 |
static void qt_qimageScaleAARGBSetup(QImageScaleInfo *isi, unsigned int *dest, |
|
992 |
int dxx, int dyy, int dx, int dy, int dw, |
|
993 |
int dh, int dow, int sow) |
|
994 |
{
|
|
995 |
qInitDrawhelperAsm(); |
|
996 |
qt_qimageScaleAARGB(isi, dest, dxx, dyy, dx, dy, dw, dh, dow, sow); |
|
997 |
} |
|
998 |
#endif |
|
999 |
||
1000 |
QImage qSmoothScaleImage(const QImage &src, int dw, int dh) |
|
1001 |
{
|
|
1002 |
QImage buffer; |
|
1003 |
if (src.isNull() || dw <= 0 || dh <= 0) |
|
1004 |
return buffer; |
|
1005 |
||
1006 |
int w = src.width(); |
|
1007 |
int h = src.height(); |
|
1008 |
QImageScaleInfo *scaleinfo = |
|
1009 |
qimageCalcScaleInfo(src, w, h, dw, dh, true); |
|
1010 |
if (!scaleinfo) |
|
1011 |
return buffer; |
|
1012 |
||
1013 |
buffer = QImage(dw, dh, src.format()); |
|
1014 |
if (buffer.isNull()) {
|
|
1015 |
qWarning("QImage: out of memory, returning null");
|
|
1016 |
qimageFreeScaleInfo(scaleinfo); |
|
1017 |
return QImage(); |
|
1018 |
} |
|
1019 |
||
1020 |
if (src.format() == QImage::Format_ARGB32_Premultiplied) |
|
1021 |
qt_qimageScaleArgb(scaleinfo, (unsigned int *)buffer.scanLine(0), |
|
1022 |
0, 0, 0, 0, dw, dh, dw, src.bytesPerLine() / 4); |
|
1023 |
else |
|
1024 |
qt_qimageScaleRgb(scaleinfo, (unsigned int *)buffer.scanLine(0), |
|
1025 |
0, 0, 0, 0, dw, dh, dw, src.bytesPerLine() / 4); |
|
1026 |
||
1027 |
qimageFreeScaleInfo(scaleinfo); |
|
1028 |
return buffer; |
|
1029 |
} |
|
1030 |
||
1031 |
QT_END_NAMESPACE |