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|
/****************************************************************************
**
** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of the QtGui module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** No Commercial Usage
** This file contains pre-release code and may not be distributed.
** You may use this file in accordance with the terms and conditions
** contained in the Technology Preview License Agreement accompanying
** this package.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Nokia gives you certain additional
** rights. These rights are described in the Nokia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** If you have questions regarding the use of this file, please contact
** Nokia at qt-info@nokia.com.
**
**
**
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#ifndef QDRAWHELPER_P_H
#define QDRAWHELPER_P_H
//
// W A R N I N G
// -------------
//
// This file is not part of the Qt API. It exists purely as an
// implementation detail. This header file may change from version to
// version without notice, or even be removed.
//
// We mean it.
//
#include "QtCore/qglobal.h"
#include "QtGui/qcolor.h"
#include "QtGui/qpainter.h"
#include "QtGui/qimage.h"
#ifndef QT_FT_BEGIN_HEADER
#define QT_FT_BEGIN_HEADER
#define QT_FT_END_HEADER
#endif
#include "private/qrasterdefs_p.h"
#include <private/qsimd_p.h>
#include <private/qmath_p.h>
#ifdef Q_WS_QWS
#include "QtGui/qscreen_qws.h"
#endif
QT_BEGIN_NAMESPACE
#if defined(Q_CC_MSVC) && _MSCVER <= 1300 && !defined(Q_CC_INTEL)
#define Q_STATIC_TEMPLATE_SPECIALIZATION static
#else
#define Q_STATIC_TEMPLATE_SPECIALIZATION
#endif
#if defined(Q_CC_RVCT)
// RVCT doesn't like static template functions
# define Q_STATIC_TEMPLATE_FUNCTION
# define Q_STATIC_INLINE_FUNCTION static __forceinline
#else
# define Q_STATIC_TEMPLATE_FUNCTION static
# define Q_STATIC_INLINE_FUNCTION static inline
#endif
static const uint AMASK = 0xff000000;
static const uint RMASK = 0x00ff0000;
static const uint GMASK = 0x0000ff00;
static const uint BMASK = 0x000000ff;
/*******************************************************************************
* QSpan
*
* duplicate definition of FT_Span
*/
typedef QT_FT_Span QSpan;
struct QSolidData;
struct QTextureData;
struct QGradientData;
struct QLinearGradientData;
struct QRadialGradientData;
struct QConicalGradientData;
struct QSpanData;
class QGradient;
class QRasterBuffer;
class QClipData;
class QRasterPaintEngineState;
typedef QT_FT_SpanFunc ProcessSpans;
typedef void (*BitmapBlitFunc)(QRasterBuffer *rasterBuffer,
int x, int y, quint32 color,
const uchar *bitmap,
int mapWidth, int mapHeight, int mapStride);
typedef void (*AlphamapBlitFunc)(QRasterBuffer *rasterBuffer,
int x, int y, quint32 color,
const uchar *bitmap,
int mapWidth, int mapHeight, int mapStride,
const QClipData *clip);
typedef void (*AlphaRGBBlitFunc)(QRasterBuffer *rasterBuffer,
int x, int y, quint32 color,
const uint *rgbmask,
int mapWidth, int mapHeight, int mapStride,
const QClipData *clip);
typedef void (*RectFillFunc)(QRasterBuffer *rasterBuffer,
int x, int y, int width, int height,
quint32 color);
typedef void (*SrcOverBlendFunc)(uchar *destPixels, int dbpl,
const uchar *src, int spbl,
int w, int h,
int const_alpha);
typedef void (*SrcOverScaleFunc)(uchar *destPixels, int dbpl,
const uchar *src, int spbl,
const QRectF &targetRect,
const QRectF &sourceRect,
const QRect &clipRect,
int const_alpha);
typedef void (*SrcOverTransformFunc)(uchar *destPixels, int dbpl,
const uchar *src, int spbl,
const QRectF &targetRect,
const QRectF &sourceRect,
const QRect &clipRect,
const QTransform &targetRectTransform,
int const_alpha);
typedef void (*MemRotateFunc)(const uchar *srcPixels, int w, int h, int sbpl, uchar *destPixels, int dbpl);
struct DrawHelper {
ProcessSpans blendColor;
ProcessSpans blendGradient;
BitmapBlitFunc bitmapBlit;
AlphamapBlitFunc alphamapBlit;
AlphaRGBBlitFunc alphaRGBBlit;
RectFillFunc fillRect;
};
extern SrcOverBlendFunc qBlendFunctions[QImage::NImageFormats][QImage::NImageFormats];
extern SrcOverScaleFunc qScaleFunctions[QImage::NImageFormats][QImage::NImageFormats];
extern SrcOverTransformFunc qTransformFunctions[QImage::NImageFormats][QImage::NImageFormats];
extern MemRotateFunc qMemRotateFunctions[QImage::NImageFormats][3];
extern DrawHelper qDrawHelper[QImage::NImageFormats];
void qBlendTexture(int count, const QSpan *spans, void *userData);
#if defined(Q_WS_QWS) && !defined(QT_NO_RASTERCALLBACKS)
extern DrawHelper qDrawHelperCallback[QImage::NImageFormats];
void qBlendTextureCallback(int count, const QSpan *spans, void *userData);
#endif
typedef void (QT_FASTCALL *CompositionFunction)(uint *dest, const uint *src, int length, uint const_alpha);
typedef void (QT_FASTCALL *CompositionFunctionSolid)(uint *dest, int length, uint color, uint const_alpha);
struct LinearGradientValues
{
qreal dx;
qreal dy;
qreal l;
qreal off;
};
struct RadialGradientValues
{
qreal dx;
qreal dy;
qreal a;
};
struct Operator;
typedef uint* (QT_FASTCALL *DestFetchProc)(uint *buffer, QRasterBuffer *rasterBuffer, int x, int y, int length);
typedef void (QT_FASTCALL *DestStoreProc)(QRasterBuffer *rasterBuffer, int x, int y, const uint *buffer, int length);
typedef const uint* (QT_FASTCALL *SourceFetchProc)(uint *buffer, const Operator *o, const QSpanData *data, int y, int x, int length);
struct Operator
{
QPainter::CompositionMode mode;
DestFetchProc dest_fetch;
DestStoreProc dest_store;
SourceFetchProc src_fetch;
CompositionFunctionSolid funcSolid;
CompositionFunction func;
union {
LinearGradientValues linear;
RadialGradientValues radial;
};
};
void qInitDrawhelperAsm();
class QRasterPaintEngine;
struct QSolidData
{
uint color;
};
struct QLinearGradientData
{
struct {
qreal x;
qreal y;
} origin;
struct {
qreal x;
qreal y;
} end;
};
struct QRadialGradientData
{
struct {
qreal x;
qreal y;
} center;
struct {
qreal x;
qreal y;
} focal;
qreal radius;
};
struct QConicalGradientData
{
struct {
qreal x;
qreal y;
} center;
qreal angle;
};
struct QGradientData
{
QGradient::Spread spread;
union {
QLinearGradientData linear;
QRadialGradientData radial;
QConicalGradientData conical;
};
#ifdef Q_WS_QWS
#define GRADIENT_STOPTABLE_SIZE 256
#define GRADIENT_STOPTABLE_SIZE_SHIFT 8
#else
#define GRADIENT_STOPTABLE_SIZE 1024
#define GRADIENT_STOPTABLE_SIZE_SHIFT 10
#endif
uint* colorTable; //[GRADIENT_STOPTABLE_SIZE];
uint alphaColor : 1;
};
struct QTextureData
{
const uchar *imageData;
const uchar *scanLine(int y) const { return imageData + y*bytesPerLine; }
int width;
int height;
// clip rect
int x1;
int y1;
int x2;
int y2;
int bytesPerLine;
QImage::Format format;
const QVector<QRgb> *colorTable;
bool hasAlpha;
enum Type {
Plain,
Tiled
};
Type type;
int const_alpha;
};
struct QSpanData
{
QSpanData() : tempImage(0) {}
~QSpanData() { delete tempImage; }
QRasterBuffer *rasterBuffer;
#ifdef Q_WS_QWS
QRasterPaintEngine *rasterEngine;
#endif
ProcessSpans blend;
ProcessSpans unclipped_blend;
BitmapBlitFunc bitmapBlit;
AlphamapBlitFunc alphamapBlit;
AlphaRGBBlitFunc alphaRGBBlit;
RectFillFunc fillRect;
qreal m11, m12, m13, m21, m22, m23, m33, dx, dy; // inverse xform matrix
const QClipData *clip;
enum Type {
None,
Solid,
LinearGradient,
RadialGradient,
ConicalGradient,
Texture
} type : 8;
int txop : 8;
int fast_matrix : 1;
bool bilinear;
QImage *tempImage;
union {
QSolidData solid;
QGradientData gradient;
QTextureData texture;
};
void init(QRasterBuffer *rb, const QRasterPaintEngine *pe);
void setup(const QBrush &brush, int alpha, QPainter::CompositionMode compositionMode);
void setupMatrix(const QTransform &matrix, int bilinear);
void initTexture(const QImage *image, int alpha, QTextureData::Type = QTextureData::Plain, const QRect &sourceRect = QRect());
void adjustSpanMethods();
};
static inline uint qt_gradient_clamp(const QGradientData *data, int ipos)
{
if (ipos < 0 || ipos >= GRADIENT_STOPTABLE_SIZE) {
if (data->spread == QGradient::RepeatSpread) {
ipos = ipos % GRADIENT_STOPTABLE_SIZE;
ipos = ipos < 0 ? GRADIENT_STOPTABLE_SIZE + ipos : ipos;
} else if (data->spread == QGradient::ReflectSpread) {
const int limit = GRADIENT_STOPTABLE_SIZE * 2;
ipos = ipos % limit;
ipos = ipos < 0 ? limit + ipos : ipos;
ipos = ipos >= GRADIENT_STOPTABLE_SIZE ? limit - 1 - ipos : ipos;
} else {
if (ipos < 0)
ipos = 0;
else if (ipos >= GRADIENT_STOPTABLE_SIZE)
ipos = GRADIENT_STOPTABLE_SIZE-1;
}
}
Q_ASSERT(ipos >= 0);
Q_ASSERT(ipos < GRADIENT_STOPTABLE_SIZE);
return ipos;
}
static inline uint qt_gradient_pixel(const QGradientData *data, qreal pos)
{
int ipos = int(pos * (GRADIENT_STOPTABLE_SIZE - 1) + qreal(0.5));
return data->colorTable[qt_gradient_clamp(data, ipos)];
}
static inline qreal qRadialDeterminant(qreal a, qreal b, qreal c)
{
return (b * b) - (4 * a * c);
}
// function to evaluate real roots
static inline qreal qRadialRealRoots(qreal a, qreal b, qreal detSqrt)
{
return (-b + detSqrt)/(2 * a);
}
template <class RadialFetchFunc>
const uint * QT_FASTCALL qt_fetch_radial_gradient_template(uint *buffer, const Operator *op, const QSpanData *data,
int y, int x, int length)
{
// avoid division by zero
if (qFuzzyIsNull(op->radial.a)) {
extern void (*qt_memfill32)(quint32 *dest, quint32 value, int count);
qt_memfill32(buffer, data->gradient.colorTable[0], length);
return buffer;
}
const uint *b = buffer;
qreal rx = data->m21 * (y + qreal(0.5))
+ data->dx + data->m11 * (x + qreal(0.5));
qreal ry = data->m22 * (y + qreal(0.5))
+ data->dy + data->m12 * (x + qreal(0.5));
bool affine = !data->m13 && !data->m23;
uint *end = buffer + length;
if (affine) {
rx -= data->gradient.radial.focal.x;
ry -= data->gradient.radial.focal.y;
qreal inv_a = 1 / qreal(2 * op->radial.a);
const qreal delta_rx = data->m11;
const qreal delta_ry = data->m12;
qreal b = 2*(rx * op->radial.dx + ry * op->radial.dy);
qreal delta_b = 2*(delta_rx * op->radial.dx + delta_ry * op->radial.dy);
const qreal b_delta_b = 2 * b * delta_b;
const qreal delta_b_delta_b = 2 * delta_b * delta_b;
const qreal bb = b * b;
const qreal delta_bb = delta_b * delta_b;
b *= inv_a;
delta_b *= inv_a;
const qreal rxrxryry = rx * rx + ry * ry;
const qreal delta_rxrxryry = delta_rx * delta_rx + delta_ry * delta_ry;
const qreal rx_plus_ry = 2*(rx * delta_rx + ry * delta_ry);
const qreal delta_rx_plus_ry = 2 * delta_rxrxryry;
inv_a *= inv_a;
qreal det = (bb + 4 * op->radial.a * rxrxryry) * inv_a;
qreal delta_det = (b_delta_b + delta_bb + 4 * op->radial.a * (rx_plus_ry + delta_rxrxryry)) * inv_a;
const qreal delta_delta_det = (delta_b_delta_b + 4 * op->radial.a * delta_rx_plus_ry) * inv_a;
RadialFetchFunc::fetch(buffer, end, data, det, delta_det, delta_delta_det, b, delta_b);
} else {
qreal rw = data->m23 * (y + qreal(0.5))
+ data->m33 + data->m13 * (x + qreal(0.5));
if (!rw)
rw = 1;
while (buffer < end) {
qreal gx = rx/rw - data->gradient.radial.focal.x;
qreal gy = ry/rw - data->gradient.radial.focal.y;
qreal b = 2*(gx*op->radial.dx + gy*op->radial.dy);
qreal det = qRadialDeterminant(op->radial.a, b , -(gx*gx + gy*gy));
qreal s = qRadialRealRoots(op->radial.a, b, (det > 0 ? qSqrt(det) : 0));
*buffer = qt_gradient_pixel(&data->gradient, s);
rx += data->m11;
ry += data->m12;
rw += data->m13;
if (!rw) {
rw += data->m13;
}
++buffer;
}
}
return b;
}
template <class Simd>
class QRadialFetchSimd
{
public:
static inline void fetch(uint *buffer, uint *end, const QSpanData *data, qreal det, qreal delta_det,
qreal delta_delta_det, qreal b, qreal delta_b)
{
typename Simd::Vect_buffer_f det_vec;
typename Simd::Vect_buffer_f delta_det4_vec;
typename Simd::Vect_buffer_f b_vec;
for (int i = 0; i < 4; ++i) {
det_vec.f[i] = det;
delta_det4_vec.f[i] = 4 * delta_det;
b_vec.f[i] = b;
det += delta_det;
delta_det += delta_delta_det;
b += delta_b;
}
const typename Simd::Float32x4 v_delta_delta_det16 = Simd::v_dup(16 * delta_delta_det);
const typename Simd::Float32x4 v_delta_delta_det6 = Simd::v_dup(6 * delta_delta_det);
const typename Simd::Float32x4 v_delta_b4 = Simd::v_dup(4 * delta_b);
const typename Simd::Float32x4 v_min = Simd::v_dup(0.0f);
const typename Simd::Float32x4 v_max = Simd::v_dup(GRADIENT_STOPTABLE_SIZE-1.5f);
const typename Simd::Float32x4 v_half = Simd::v_dup(0.5f);
const typename Simd::Float32x4 v_table_size_minus_one = Simd::v_dup(float(GRADIENT_STOPTABLE_SIZE-1));
const typename Simd::Int32x4 v_repeat_mask = Simd::v_dup(~(uint(0xffffff) << GRADIENT_STOPTABLE_SIZE_SHIFT));
const typename Simd::Int32x4 v_reflect_mask = Simd::v_dup(~(uint(0xffffff) << (GRADIENT_STOPTABLE_SIZE_SHIFT+1)));
const typename Simd::Int32x4 v_reflect_limit = Simd::v_dup(2 * GRADIENT_STOPTABLE_SIZE - 1);
#define FETCH_RADIAL_LOOP_PROLOGUE \
while (buffer < end) { \
const typename Simd::Float32x4 v_index_local = Simd::v_sub(Simd::v_sqrt(Simd::v_max(v_min, det_vec.v)), b_vec.v); \
const typename Simd::Float32x4 v_index = Simd::v_add(Simd::v_mul(v_index_local, v_table_size_minus_one), v_half); \
typename Simd::Vect_buffer_i index_vec;
#define FETCH_RADIAL_LOOP_CLAMP_REPEAT \
index_vec.v = Simd::v_and(v_repeat_mask, Simd::v_toInt(v_index));
#define FETCH_RADIAL_LOOP_CLAMP_REFLECT \
const typename Simd::Int32x4 v_index_i = Simd::v_and(v_reflect_mask, Simd::v_toInt(v_index)); \
const typename Simd::Int32x4 v_index_i_inv = Simd::v_sub(v_reflect_limit, v_index_i); \
index_vec.v = Simd::v_min_16(v_index_i, v_index_i_inv);
#define FETCH_RADIAL_LOOP_CLAMP_PAD \
index_vec.v = Simd::v_toInt(Simd::v_min(v_max, Simd::v_max(v_min, v_index)));
#define FETCH_RADIAL_LOOP_EPILOGUE \
det_vec.v = Simd::v_add(Simd::v_add(det_vec.v, delta_det4_vec.v), v_delta_delta_det6); \
delta_det4_vec.v = Simd::v_add(delta_det4_vec.v, v_delta_delta_det16); \
b_vec.v = Simd::v_add(b_vec.v, v_delta_b4); \
for (int i = 0; i < 4; ++i) \
*buffer++ = data->gradient.colorTable[index_vec.i[i]]; \
}
if (data->gradient.spread == QGradient::RepeatSpread) {
FETCH_RADIAL_LOOP_PROLOGUE
FETCH_RADIAL_LOOP_CLAMP_REPEAT
FETCH_RADIAL_LOOP_EPILOGUE
} else if (data->gradient.spread == QGradient::ReflectSpread) {
FETCH_RADIAL_LOOP_PROLOGUE
FETCH_RADIAL_LOOP_CLAMP_REFLECT
FETCH_RADIAL_LOOP_EPILOGUE
} else {
FETCH_RADIAL_LOOP_PROLOGUE
FETCH_RADIAL_LOOP_CLAMP_PAD
FETCH_RADIAL_LOOP_EPILOGUE
}
}
};
#if defined(Q_CC_RVCT)
# pragma push
# pragma arm
#endif
Q_STATIC_INLINE_FUNCTION uint INTERPOLATE_PIXEL_255(uint x, uint a, uint y, uint b) {
uint t = (x & 0xff00ff) * a + (y & 0xff00ff) * b;
t = (t + ((t >> 8) & 0xff00ff) + 0x800080) >> 8;
t &= 0xff00ff;
x = ((x >> 8) & 0xff00ff) * a + ((y >> 8) & 0xff00ff) * b;
x = (x + ((x >> 8) & 0xff00ff) + 0x800080);
x &= 0xff00ff00;
x |= t;
return x;
}
#if defined(Q_CC_RVCT)
# pragma pop
#endif
#if QT_POINTER_SIZE == 8 // 64-bit versions
Q_STATIC_INLINE_FUNCTION uint INTERPOLATE_PIXEL_256(uint x, uint a, uint y, uint b) {
quint64 t = (((quint64(x)) | ((quint64(x)) << 24)) & 0x00ff00ff00ff00ff) * a;
t += (((quint64(y)) | ((quint64(y)) << 24)) & 0x00ff00ff00ff00ff) * b;
t >>= 8;
t &= 0x00ff00ff00ff00ff;
return (uint(t)) | (uint(t >> 24));
}
Q_STATIC_INLINE_FUNCTION uint BYTE_MUL(uint x, uint a) {
quint64 t = (((quint64(x)) | ((quint64(x)) << 24)) & 0x00ff00ff00ff00ff) * a;
t = (t + ((t >> 8) & 0xff00ff00ff00ff) + 0x80008000800080) >> 8;
t &= 0x00ff00ff00ff00ff;
return (uint(t)) | (uint(t >> 24));
}
Q_STATIC_INLINE_FUNCTION uint PREMUL(uint x) {
uint a = x >> 24;
quint64 t = (((quint64(x)) | ((quint64(x)) << 24)) & 0x00ff00ff00ff00ff) * a;
t = (t + ((t >> 8) & 0xff00ff00ff00ff) + 0x80008000800080) >> 8;
t &= 0x000000ff00ff00ff;
return (uint(t)) | (uint(t >> 24)) | (a << 24);
}
#else // 32-bit versions
Q_STATIC_INLINE_FUNCTION uint INTERPOLATE_PIXEL_256(uint x, uint a, uint y, uint b) {
uint t = (x & 0xff00ff) * a + (y & 0xff00ff) * b;
t >>= 8;
t &= 0xff00ff;
x = ((x >> 8) & 0xff00ff) * a + ((y >> 8) & 0xff00ff) * b;
x &= 0xff00ff00;
x |= t;
return x;
}
#if defined(Q_CC_RVCT)
# pragma push
# pragma arm
#endif
Q_STATIC_INLINE_FUNCTION uint BYTE_MUL(uint x, uint a) {
uint t = (x & 0xff00ff) * a;
t = (t + ((t >> 8) & 0xff00ff) + 0x800080) >> 8;
t &= 0xff00ff;
x = ((x >> 8) & 0xff00ff) * a;
x = (x + ((x >> 8) & 0xff00ff) + 0x800080);
x &= 0xff00ff00;
x |= t;
return x;
}
#if defined(Q_CC_RVCT)
# pragma pop
#endif
Q_STATIC_INLINE_FUNCTION uint PREMUL(uint x) {
uint a = x >> 24;
uint t = (x & 0xff00ff) * a;
t = (t + ((t >> 8) & 0xff00ff) + 0x800080) >> 8;
t &= 0xff00ff;
x = ((x >> 8) & 0xff) * a;
x = (x + ((x >> 8) & 0xff) + 0x80);
x &= 0xff00;
x |= t | (a << 24);
return x;
}
#endif
Q_STATIC_INLINE_FUNCTION uint BYTE_MUL_RGB16(uint x, uint a) {
a += 1;
uint t = (((x & 0x07e0)*a) >> 8) & 0x07e0;
t |= (((x & 0xf81f)*(a>>2)) >> 6) & 0xf81f;
return t;
}
Q_STATIC_INLINE_FUNCTION uint BYTE_MUL_RGB16_32(uint x, uint a) {
uint t = (((x & 0xf81f07e0) >> 5)*a) & 0xf81f07e0;
t |= (((x & 0x07e0f81f)*a) >> 5) & 0x07e0f81f;
return t;
}
#define INV_PREMUL(p) \
(qAlpha(p) == 0 ? 0 : \
((qAlpha(p) << 24) \
| (((255*qRed(p))/ qAlpha(p)) << 16) \
| (((255*qGreen(p)) / qAlpha(p)) << 8) \
| ((255*qBlue(p)) / qAlpha(p))))
template <class DST, class SRC>
inline DST qt_colorConvert(SRC color, DST dummy)
{
Q_UNUSED(dummy);
return DST(color);
}
template <>
inline quint32 qt_colorConvert(quint16 color, quint32 dummy)
{
Q_UNUSED(dummy);
const int r = (color & 0xf800);
const int g = (color & 0x07e0);
const int b = (color & 0x001f);
const int tr = (r >> 8) | (r >> 13);
const int tg = (g >> 3) | (g >> 9);
const int tb = (b << 3) | (b >> 2);
return qRgb(tr, tg, tb);
}
template <>
inline quint16 qt_colorConvert(quint32 color, quint16 dummy)
{
Q_UNUSED(dummy);
const int r = qRed(color) << 8;
const int g = qGreen(color) << 3;
const int b = qBlue(color) >> 3;
return (r & 0xf800) | (g & 0x07e0)| (b & 0x001f);
}
class quint32p
{
public:
inline quint32p(quint32 v) : data(PREMUL(v)) {}
inline operator quint32() const { return data; }
inline operator quint16() const
{
return qt_colorConvert<quint16, quint32>(data, 0);
}
Q_STATIC_INLINE_FUNCTION quint32p fromRawData(quint32 v)
{
quint32p p;
p.data = v;
return p;
}
private:
quint32p() {}
quint32 data;
} Q_PACKED;
class qabgr8888
{
public:
inline qabgr8888(quint32 v)
{
data = qRgba(qBlue(v), qGreen(v), qRed(v), qAlpha(v));
}
inline bool operator==(const qabgr8888 &v) const { return data == v.data; }
private:
quint32 data;
} Q_PACKED;
class qrgb565;
class qargb8565
{
public:
Q_STATIC_INLINE_FUNCTION bool hasAlpha() { return true; }
inline qargb8565() {}
inline qargb8565(quint32 v);
inline explicit qargb8565(quint32p v);
inline qargb8565(const qargb8565 &v);
inline qargb8565(const qrgb565 &v);
inline operator quint32() const;
inline operator quint16() const;
inline quint8 alpha() const { return data[0]; }
inline qargb8565 truncedAlpha() {
data[0] &= 0xf8;
data[1] &= 0xdf;
return *this;
}
Q_STATIC_INLINE_FUNCTION quint8 alpha(quint8 a) { return (a + 1) >> 3; }
Q_STATIC_INLINE_FUNCTION quint8 ialpha(quint8 a) { return 0x20 - alpha(a); }
inline qargb8565 byte_mul(quint8 a) const;
inline qargb8565 operator+(qargb8565 v) const;
inline bool operator==(const qargb8565 &v) const;
inline quint32 rawValue() const;
inline quint16 rawValue16() const;
private:
friend class qrgb565;
quint8 data[3];
} Q_PACKED;
class qrgb565
{
public:
Q_STATIC_INLINE_FUNCTION bool hasAlpha() { return false; }
qrgb565(int v = 0) : data(v) {}
inline explicit qrgb565(quint32p v);
inline explicit qrgb565(quint32 v);
inline explicit qrgb565(const qargb8565 &v);
inline operator quint32() const;
inline operator quint16() const;
inline qrgb565 operator+(qrgb565 v) const;
inline quint8 alpha() const { return 0xff; }
inline qrgb565 truncedAlpha() { return *this; }
Q_STATIC_INLINE_FUNCTION quint8 alpha(quint8 a) { return (a + 1) >> 3; }
Q_STATIC_INLINE_FUNCTION quint8 ialpha(quint8 a) { return 0x20 - alpha(a); }
inline qrgb565 byte_mul(quint8 a) const;
inline bool operator==(const qrgb565 &v) const;
inline quint16 rawValue() const { return data; }
private:
friend class qargb8565;
quint16 data;
} Q_PACKED;
qargb8565::qargb8565(quint32 v)
{
*this = qargb8565(quint32p(v));
}
qargb8565::qargb8565(quint32p v)
{
data[0] = qAlpha(v);
const int r = qRed(v);
const int g = qGreen(v);
const int b = qBlue(v);
data[1] = ((g << 3) & 0xe0) | (b >> 3);
data[2] = (r & 0xf8) | (g >> 5);
}
qargb8565::qargb8565(const qargb8565 &v)
{
data[0] = v.data[0];
data[1] = v.data[1];
data[2] = v.data[2];
}
qargb8565::qargb8565(const qrgb565 &v)
{
data[0] = 0xff;
data[1] = v.data & 0xff;
data[2] = v.data >> 8;
}
qargb8565::operator quint32() const
{
const quint16 rgb = (data[2] << 8) | data[1];
const int a = data[0];
const int r = (rgb & 0xf800);
const int g = (rgb & 0x07e0);
const int b = (rgb & 0x001f);
const int tr = qMin(a, (r >> 8) | (r >> 13));
const int tg = qMin(a, (g >> 3) | (g >> 9));
const int tb = qMin(a, (b << 3) | (b >> 2));
return qRgba(tr, tg, tb, data[0]);
}
qargb8565::operator quint16() const
{
return (data[2] << 8) | data[1];
}
qargb8565 qargb8565::operator+(qargb8565 v) const
{
qargb8565 t;
t.data[0] = data[0] + v.data[0];
const quint16 rgb = ((data[2] + v.data[2]) << 8)
+ (data[1] + v.data[1]);
t.data[1] = rgb & 0xff;
t.data[2] = rgb >> 8;
return t;
}
qargb8565 qargb8565::byte_mul(quint8 a) const
{
qargb8565 result;
result.data[0] = (data[0] * a) >> 5;
const quint16 x = (data[2] << 8) | data[1];
const quint16 t = ((((x & 0x07e0) >> 5) * a) & 0x07e0) |
((((x & 0xf81f) * a) >> 5) & 0xf81f);
result.data[1] = t & 0xff;
result.data[2] = t >> 8;
return result;
}
bool qargb8565::operator==(const qargb8565 &v) const
{
return data[0] == v.data[0]
&& data[1] == v.data[1]
&& data[2] == v.data[2];
}
quint32 qargb8565::rawValue() const
{
return (data[2] << 16) | (data[1] << 8) | data[0];
}
quint16 qargb8565::rawValue16() const
{
return (data[2] << 8) | data[1];
}
qrgb565::qrgb565(quint32p v)
{
*this = qrgb565(quint32(v));
}
qrgb565::qrgb565(quint32 v)
{
const int r = qRed(v) << 8;
const int g = qGreen(v) << 3;
const int b = qBlue(v) >> 3;
data = (r & 0xf800) | (g & 0x07e0)| (b & 0x001f);
}
qrgb565::qrgb565(const qargb8565 &v)
{
data = (v.data[2] << 8) | v.data[1];
}
qrgb565::operator quint32() const
{
const int r = (data & 0xf800);
const int g = (data & 0x07e0);
const int b = (data & 0x001f);
const int tr = (r >> 8) | (r >> 13);
const int tg = (g >> 3) | (g >> 9);
const int tb = (b << 3) | (b >> 2);
return qRgb(tr, tg, tb);
}
qrgb565::operator quint16() const
{
return data;
}
qrgb565 qrgb565::operator+(qrgb565 v) const
{
qrgb565 t;
t.data = data + v.data;
return t;
}
qrgb565 qrgb565::byte_mul(quint8 a) const
{
qrgb565 result;
result.data = ((((data & 0x07e0) >> 5) * a) & 0x07e0) |
((((data & 0xf81f) * a) >> 5) & 0xf81f);
return result;
}
bool qrgb565::operator==(const qrgb565 &v) const
{
return data == v.data;
}
class qbgr565
{
public:
inline qbgr565(quint16 v)
{
data = ((v & 0x001f) << 11) |
(v & 0x07e0) |
((v & 0xf800) >> 11);
}
inline bool operator==(const qbgr565 &v) const
{
return data == v.data;
}
private:
quint16 data;
} Q_PACKED;
class qrgb555;
class qargb8555
{
public:
Q_STATIC_INLINE_FUNCTION bool hasAlpha() { return true; }
qargb8555() {}
inline qargb8555(quint32 v);
inline explicit qargb8555(quint32p v);
inline qargb8555(const qargb8555 &v);
inline qargb8555(const qrgb555 &v);
inline operator quint32() const;
inline quint8 alpha() const { return data[0]; }
inline qargb8555 truncedAlpha() { data[0] &= 0xf8; return *this; }
Q_STATIC_INLINE_FUNCTION quint8 alpha(quint8 a) { return (a + 1) >> 3; }
Q_STATIC_INLINE_FUNCTION quint8 ialpha(quint8 a) { return 0x20 - alpha(a); }
inline qargb8555 operator+(qargb8555 v) const;
inline qargb8555 byte_mul(quint8 a) const;
inline bool operator==(const qargb8555 &v) const;
inline quint32 rawValue() const;
private:
friend class qrgb555;
quint8 data[3];
} Q_PACKED;
class qrgb555
{
public:
Q_STATIC_INLINE_FUNCTION bool hasAlpha() { return false; }
inline qrgb555(int v = 0) : data(v) {}
inline explicit qrgb555(quint32p v) { *this = qrgb555(quint32(v)); }
inline explicit qrgb555(quint32 v)
{
const int r = qRed(v) << 7;
const int g = qGreen(v) << 2;
const int b = qBlue(v) >> 3;
data = (r & 0x7c00) | (g & 0x03e0) | (b & 0x001f);
}
inline explicit qrgb555(quint16 v)
{
data = ((v >> 1) & (0x7c00 | 0x03e0)) |
(v & 0x001f);
}
inline explicit qrgb555(const qargb8555 &v);
inline operator quint32() const
{
const int r = (data & 0x7c00);
const int g = (data & 0x03e0);
const int b = (data & 0x001f);
const int tr = (r >> 7) | (r >> 12);
const int tg = (g >> 2) | (g >> 7);
const int tb = (b << 3) | (b >> 2);
return qRgb(tr, tg, tb);
}
inline operator quint16() const
{
const int r = ((data & 0x7c00) << 1) & 0xf800;
const int g = (((data & 0x03e0) << 1) | ((data >> 4) & 0x0020)) & 0x07e0;
const int b = (data & 0x001f);
return r | g | b;
}
inline qrgb555 operator+(qrgb555 v) const;
inline qrgb555 byte_mul(quint8 a) const;
inline quint8 alpha() const { return 0xff; }
inline qrgb555 truncedAlpha() { return *this; }
Q_STATIC_INLINE_FUNCTION quint8 alpha(quint8 a) { return (a + 1) >> 3; }
Q_STATIC_INLINE_FUNCTION quint8 ialpha(quint8 a) { return 0x20 - alpha(a); }
inline bool operator==(const qrgb555 &v) const { return v.data == data; }
inline bool operator!=(const qrgb555 &v) const { return v.data != data; }
inline quint16 rawValue() const { return data; }
private:
friend class qargb8555;
friend class qbgr555;
quint16 data;
} Q_PACKED;
qrgb555::qrgb555(const qargb8555 &v)
{
data = (v.data[2] << 8) | v.data[1];
}
qrgb555 qrgb555::operator+(qrgb555 v) const
{
qrgb555 t;
t.data = data + v.data;
return t;
}
qrgb555 qrgb555::byte_mul(quint8 a) const
{
quint16 t = (((data & 0x3e0) * a) >> 5) & 0x03e0;
t |= (((data & 0x7c1f) * a) >> 5) & 0x7c1f;
qrgb555 result;
result.data = t;
return result;
}
class qbgr555
{
public:
inline qbgr555(quint32 v) { *this = qbgr555(qrgb555(v)); }
inline qbgr555(qrgb555 v)
{
data = ((v.data & 0x001f) << 10) |
(v.data & 0x03e0) |
((v.data & 0x7c00) >> 10);
}
inline bool operator==(const qbgr555 &v) const
{
return data == v.data;
}
private:
quint16 data;
} Q_PACKED;
qargb8555::qargb8555(quint32 v)
{
v = quint32p(v);
data[0] = qAlpha(v);
const int r = qRed(v);
const int g = qGreen(v);
const int b = qBlue(v);
data[1] = ((g << 2) & 0xe0) | (b >> 3);
data[2] = ((r >> 1) & 0x7c) | (g >> 6);
}
qargb8555::qargb8555(quint32p v)
{
data[0] = qAlpha(v);
const int r = qRed(v);
const int g = qGreen(v);
const int b = qBlue(v);
data[1] = ((g << 2) & 0xe0) | (b >> 3);
data[2] = ((r >> 1) & 0x7c) | (g >> 6);
}
qargb8555::qargb8555(const qargb8555 &v)
{
data[0] = v.data[0];
data[1] = v.data[1];
data[2] = v.data[2];
}
qargb8555::qargb8555(const qrgb555 &v)
{
data[0] = 0xff;
data[1] = v.data & 0xff;
data[2] = v.data >> 8;
}
qargb8555::operator quint32() const
{
const quint16 rgb = (data[2] << 8) | data[1];
const int r = (rgb & 0x7c00);
const int g = (rgb & 0x03e0);
const int b = (rgb & 0x001f);
const int tr = (r >> 7) | (r >> 12);
const int tg = (g >> 2) | (g >> 7);
const int tb = (b << 3) | (b >> 2);
return qRgba(tr, tg, tb, data[0]);
}
bool qargb8555::operator==(const qargb8555 &v) const
{
return data[0] == v.data[0]
&& data[1] == v.data[1]
&& data[2] == v.data[2];
}
quint32 qargb8555::rawValue() const
{
return (data[2] << 16) | (data[1] << 8) | data[0];
}
qargb8555 qargb8555::operator+(qargb8555 v) const
{
qargb8555 t;
t.data[0] = data[0] + v.data[0];
const quint16 rgb = ((data[2] + v.data[2]) << 8)
+ (data[1] + v.data[1]);
t.data[1] = rgb & 0xff;
t.data[2] = rgb >> 8;
return t;
}
qargb8555 qargb8555::byte_mul(quint8 a) const
{
qargb8555 result;
result.data[0] = (data[0] * a) >> 5;
const quint16 x = (data[2] << 8) | data[1];
quint16 t = (((x & 0x3e0) * a) >> 5) & 0x03e0;
t |= (((x & 0x7c1f) * a) >> 5) & 0x7c1f;
result.data[1] = t & 0xff;
result.data[2] = t >> 8;
return result;
}
class qrgb666;
class qargb6666
{
public:
Q_STATIC_INLINE_FUNCTION bool hasAlpha() { return true; }
inline qargb6666() {}
inline qargb6666(quint32 v) { *this = qargb6666(quint32p(v)); }
inline explicit qargb6666(quint32p v);
inline qargb6666(const qargb6666 &v);
inline qargb6666(const qrgb666 &v);
inline operator quint32 () const;
inline quint8 alpha() const;
inline qargb6666 truncedAlpha() { return *this; }
Q_STATIC_INLINE_FUNCTION quint8 alpha(quint8 a) { return (a + 1) >> 2; }
Q_STATIC_INLINE_FUNCTION quint8 ialpha(quint8 a) { return (255 - a + 1) >> 2; }
inline qargb6666 byte_mul(quint8 a) const;
inline qargb6666 operator+(qargb6666 v) const;
inline bool operator==(const qargb6666 &v) const;
inline quint32 rawValue() const;
private:
friend class qrgb666;
quint8 data[3];
} Q_PACKED;
class qrgb666
{
public:
Q_STATIC_INLINE_FUNCTION bool hasAlpha() { return false; }
inline qrgb666() {}
inline qrgb666(quint32 v);
inline qrgb666(const qargb6666 &v);
inline operator quint32 () const;
inline quint8 alpha() const { return 0xff; }
inline qrgb666 truncedAlpha() { return *this; }
Q_STATIC_INLINE_FUNCTION quint8 alpha(quint8 a) { return (a + 1) >> 2; }
Q_STATIC_INLINE_FUNCTION quint8 ialpha(quint8 a) { return (255 - a + 1) >> 2; }
inline qrgb666 operator+(qrgb666 v) const;
inline qrgb666 byte_mul(quint8 a) const;
inline bool operator==(const qrgb666 &v) const;
inline bool operator!=(const qrgb666 &v) const { return !(*this == v); }
inline quint32 rawValue() const
{
return (data[2] << 16) | (data[1] << 8) | data[0];
}
private:
friend class qargb6666;
quint8 data[3];
} Q_PACKED;
qrgb666::qrgb666(quint32 v)
{
const uchar b = qBlue(v);
const uchar g = qGreen(v);
const uchar r = qRed(v);
const uint p = (b >> 2) | ((g >> 2) << 6) | ((r >> 2) << 12);
data[0] = qBlue(p);
data[1] = qGreen(p);
data[2] = qRed(p);
}
qrgb666::qrgb666(const qargb6666 &v)
{
data[0] = v.data[0];
data[1] = v.data[1];
data[2] = v.data[2] & 0x03;
}
qrgb666::operator quint32 () const
{
const uchar r = (data[2] << 6) | ((data[1] & 0xf0) >> 2) | (data[2] & 0x3);
const uchar g = (data[1] << 4) | ((data[0] & 0xc0) >> 4) | ((data[1] & 0x0f) >> 2);
const uchar b = (data[0] << 2) | ((data[0] & 0x3f) >> 4);
return qRgb(r, g, b);
}
qrgb666 qrgb666::operator+(qrgb666 v) const
{
const quint32 x1 = (data[2] << 16) | (data[1] << 8) | data[0];
const quint32 x2 = (v.data[2] << 16) | (v.data[1] << 8) | v.data[0];
const quint32 t = x1 + x2;
qrgb666 r;
r.data[0] = t & 0xff;
r.data[1] = (t >> 8) & 0xff;
r.data[2] = (t >> 16) & 0xff;
return r;
}
qrgb666 qrgb666::byte_mul(quint8 a) const
{
const quint32 x = (data[2] << 16) | (data[1] << 8) | data[0];
const quint32 t = ((((x & 0x03f03f) * a) >> 6) & 0x03f03f) |
((((x & 0x000fc0) * a) >> 6) & 0x000fc0);
qrgb666 r;
r.data[0] = t & 0xff;
r.data[1] = (t >> 8) & 0xff;
r.data[2] = (t >> 16) & 0xff;
return r;
}
bool qrgb666::operator==(const qrgb666 &v) const
{
return (data[0] == v.data[0] &&
data[1] == v.data[1] &&
data[2] == v.data[2]);
}
qargb6666::qargb6666(quint32p v)
{
const quint8 b = qBlue(v) >> 2;
const quint8 g = qGreen(v) >> 2;
const quint8 r = qRed(v) >> 2;
const quint8 a = qAlpha(v) >> 2;
const uint p = (a << 18) | (r << 12) | (g << 6) | b;
data[0] = qBlue(p);
data[1] = qGreen(p);
data[2] = qRed(p);
}
qargb6666::qargb6666(const qargb6666 &v)
{
data[0] = v.data[0];
data[1] = v.data[1];
data[2] = v.data[2];
}
qargb6666::qargb6666(const qrgb666 &v)
{
data[0] = v.data[0];
data[1] = v.data[1];
data[2] = (v.data[2] | 0xfc);
}
qargb6666::operator quint32 () const
{
const quint8 r = (data[2] << 6) | ((data[1] & 0xf0) >> 2) | (data[2] & 0x3);
const quint8 g = (data[1] << 4) | ((data[0] & 0xc0) >> 4) | ((data[1] & 0x0f) >> 2);
const quint8 b = (data[0] << 2) | ((data[0] & 0x3f) >> 4);
const quint8 a = (data[2] & 0xfc) | (data[2] >> 6);
return qRgba(r, g, b, a);
}
qargb6666 qargb6666::operator+(qargb6666 v) const
{
const quint32 x1 = (data[2] << 16) | (data[1] << 8) | data[0];
const quint32 x2 = (v.data[2] << 16) | (v.data[1] << 8) | v.data[0];
const quint32 t = x1 + x2;
qargb6666 r;
r.data[0] = t & 0xff;
r.data[1] = (t >> 8) & 0xff;
r.data[2] = (t >> 16) & 0xff;
return r;
}
quint8 qargb6666::alpha() const
{
return (data[2] & 0xfc) | (data[2] >> 6);
}
inline qargb6666 qargb6666::byte_mul(quint8 a) const
{
const quint32 x = (data[2] << 16) | (data[1] << 8) | data[0];
const quint32 t = ((((x & 0x03f03f) * a) >> 6) & 0x03f03f) |
((((x & 0xfc0fc0) * a) >> 6) & 0xfc0fc0);
qargb6666 r;
r.data[0] = t & 0xff;
r.data[1] = (t >> 8) & 0xff;
r.data[2] = (t >> 16) & 0xff;
return r;
}
bool qargb6666::operator==(const qargb6666 &v) const
{
return data[0] == v.data[0]
&& data[1] == v.data[1]
&& data[2] == v.data[2];
}
quint32 qargb6666::rawValue() const
{
return (data[2] << 16) | (data[1] << 8) | data[0];
}
class qrgb888
{
public:
Q_STATIC_INLINE_FUNCTION bool hasAlpha() { return false; }
inline qrgb888() {}
inline qrgb888(quint32 v);
inline operator quint32() const;
inline quint8 alpha() const { return 0xff; }
inline qrgb888 truncedAlpha() { return *this; }
Q_STATIC_INLINE_FUNCTION quint8 alpha(quint8 a) { return a; }
Q_STATIC_INLINE_FUNCTION quint8 ialpha(quint8 a) { return 255 - a; }
inline qrgb888 byte_mul(quint8 a) const;
inline qrgb888 operator+(qrgb888 v) const;
inline bool operator==(qrgb888 v) const;
inline quint32 rawValue() const;
private:
uchar data[3];
} Q_PACKED;
qrgb888::qrgb888(quint32 v)
{
data[0] = qRed(v);
data[1] = qGreen(v);
data[2] = qBlue(v);
}
qrgb888::operator quint32() const
{
return qRgb(data[0], data[1], data[2]);
}
qrgb888 qrgb888::operator+(qrgb888 v) const
{
qrgb888 t = *this;
t.data[0] += v.data[0];
t.data[1] += v.data[1];
t.data[2] += v.data[2];
return t;
}
qrgb888 qrgb888::byte_mul(quint8 a) const
{
quint32 x(*this);
quint32 t = (x & 0xff00ff) * a;
t = (t + ((t >> 8) & 0xff00ff) + 0x800080) >> 8;
t &= 0xff00ff;
x = ((x >> 8) & 0xff00ff) * a;
x = (x + ((x >> 8) & 0xff00ff) + 0x800080);
x &= 0xff00ff00;
x |= t;
return qrgb888(x);
}
bool qrgb888::operator==(qrgb888 v) const
{
return (data[0] == v.data[0] &&
data[1] == v.data[1] &&
data[2] == v.data[2]);
}
quint32 qrgb888::rawValue() const
{
return (data[2] << 16) | (data[1] << 8) | data[0];
}
template <>
inline qrgb888 qt_colorConvert(quint32 color, qrgb888 dummy)
{
Q_UNUSED(dummy);
return qrgb888(color);
}
template <>
inline quint32 qt_colorConvert(qrgb888 color, quint32 dummy)
{
Q_UNUSED(dummy);
return quint32(color);
}
#ifdef QT_QWS_DEPTH_8
template <>
inline quint8 qt_colorConvert(quint32 color, quint8 dummy)
{
Q_UNUSED(dummy);
uchar r = ((qRed(color) & 0xf8) + 0x19) / 0x33;
uchar g = ((qGreen(color) &0xf8) + 0x19) / 0x33;
uchar b = ((qBlue(color) &0xf8) + 0x19) / 0x33;
return r*6*6 + g*6 + b;
}
template <>
inline quint8 qt_colorConvert(quint16 color, quint8 dummy)
{
Q_UNUSED(dummy);
uchar r = (color & 0xf800) >> (11-3);
uchar g = (color & 0x07c0) >> (6-3);
uchar b = (color & 0x001f) << 3;
uchar tr = (r + 0x19) / 0x33;
uchar tg = (g + 0x19) / 0x33;
uchar tb = (b + 0x19) / 0x33;
return tr*6*6 + tg*6 + tb;
}
#endif // QT_QWS_DEPTH_8
// hw: endianess??
class quint24
{
public:
inline quint24(quint32 v)
{
data[0] = qBlue(v);
data[1] = qGreen(v);
data[2] = qRed(v);
}
inline operator quint32 ()
{
return qRgb(data[2], data[1], data[0]);
}
inline bool operator==(const quint24 &v) const
{
return data[0] == v.data[0]
&& data[1] == v.data[1]
&& data[2] == v.data[2];
}
private:
uchar data[3];
} Q_PACKED;
template <>
inline quint24 qt_colorConvert(quint32 color, quint24 dummy)
{
Q_UNUSED(dummy);
return quint24(color);
}
// hw: endianess??
class quint18
{
public:
inline quint18(quint32 v)
{
uchar b = qBlue(v);
uchar g = qGreen(v);
uchar r = qRed(v);
uint p = (b >> 2) | ((g >> 2) << 6) | ((r >> 2) << 12);
data[0] = qBlue(p);
data[1] = qGreen(p);
data[2] = qRed(p);
}
inline operator quint32 ()
{
const uchar r = (data[2] << 6) | ((data[1] & 0xf0) >> 2) | (data[2] & 0x3);
const uchar g = (data[1] << 4) | ((data[0] & 0xc0) >> 4) | ((data[1] & 0x0f) >> 2);
const uchar b = (data[0] << 2) | ((data[0] & 0x3f) >> 4);
return qRgb(r, g, b);
}
private:
uchar data[3];
} Q_PACKED;
template <>
inline quint18 qt_colorConvert(quint32 color, quint18 dummy)
{
Q_UNUSED(dummy);
return quint18(color);
}
class qrgb444;
class qargb4444
{
public:
Q_STATIC_INLINE_FUNCTION bool hasAlpha() { return true; }
inline qargb4444() {}
inline qargb4444(quint32 v) { *this = qargb4444(quint32p(v)); }
inline explicit qargb4444(quint32p v);
inline qargb4444(const qrgb444 &v);
inline operator quint32() const;
inline operator quint8() const;
inline qargb4444 operator+(qargb4444 v) const;
inline quint8 alpha() const { return ((data & 0xf000) >> 8) | ((data & 0xf000) >> 12); }
inline qargb4444 truncedAlpha() { return *this; }
Q_STATIC_INLINE_FUNCTION quint8 alpha(quint8 a) { return (a + 1) >> 4; }
Q_STATIC_INLINE_FUNCTION quint8 ialpha(quint8 a) { return 0x10 - alpha(a); }
inline qargb4444 byte_mul(quint8 a) const;
inline bool operator==(const qargb4444 &v) const { return data == v.data; }
inline quint16 rawValue() const { return data; }
private:
friend class qrgb444;
quint16 data;
} Q_PACKED;
class qrgb444
{
public:
Q_STATIC_INLINE_FUNCTION bool hasAlpha() { return false; }
inline qrgb444() {}
inline qrgb444(quint32 v);
inline explicit qrgb444(qargb4444 v);
inline operator quint32() const;
inline operator quint8() const;
inline qrgb444 operator+(qrgb444 v) const;
inline quint8 alpha() const { return 0xff; }
inline qrgb444 truncedAlpha() { return *this; }
Q_STATIC_INLINE_FUNCTION quint8 alpha(quint8 a) { return (a + 1) >> 4; }
Q_STATIC_INLINE_FUNCTION quint8 ialpha(quint8 a) { return 0x10 - alpha(a); }
inline qrgb444 byte_mul(quint8 a) const;
inline bool operator==(const qrgb444 &v) const { return data == v.data; }
inline bool operator!=(const qrgb444 &v) const { return data != v.data; }
inline quint16 rawValue() const { return data; }
private:
friend class qargb4444;
quint16 data;
} Q_PACKED;
qargb4444::qargb4444(quint32p color)
{
quint32 v = color;
v &= 0xf0f0f0f0;
const int a = qAlpha(v) << 8;
const int r = qRed(v) << 4;
const int g = qGreen(v);
const int b = qBlue(v) >> 4;
data = a | r | g | b;
}
qargb4444::qargb4444(const qrgb444 &v)
{
data = v.data | 0xf000;
}
qargb4444::operator quint32() const
{
const int a = (data & 0xf000);
const int r = (data & 0x0f00);
const int g = (data & 0x00f0);
const int b = (data & 0x000f);
const int ta = (a >> 8) | (a >> 12);
const int tr = (r >> 4) | (r >> 8);
const int tg = g | (g >> 4);
const int tb = (b << 4) | b;
return qRgba(tr, tg, tb, ta);
}
qargb4444::operator quint8() const
{
// hw: optimize!
return qt_colorConvert<quint8, quint32>(operator quint32(), 0);
}
qargb4444 qargb4444::operator+(qargb4444 v) const
{
qargb4444 t;
t.data = data + v.data;
return t;
}
qargb4444 qargb4444::byte_mul(quint8 a) const
{
quint16 t = (((data & 0xf0f0) * a) >> 4) & 0xf0f0;
t |= (((data & 0x0f0f) * a) >> 4) & 0x0f0f;
qargb4444 result;
result.data = t;
return result;
}
qrgb444::qrgb444(quint32 v)
{
v &= 0xf0f0f0f0;
const int r = qRed(v) << 4;
const int g = qGreen(v);
const int b = qBlue(v) >> 4;
data = r | g | b;
}
qrgb444::qrgb444(qargb4444 v)
{
data = v.data & 0x0fff;
}
qrgb444::operator quint32() const
{
const int r = (data & 0x0f00);
const int g = (data & 0x00f0);
const int b = (data & 0x000f);
const int tr = (r >> 4) | (r >> 8);
const int tg = g | (g >> 4);
const int tb = (b << 4) | b;
return qRgb(tr, tg, tb);
}
qrgb444::operator quint8() const
{
// hw: optimize!
return qt_colorConvert<quint8, quint32>(operator quint32(), 0);
}
qrgb444 qrgb444::operator+(qrgb444 v) const
{
qrgb444 t;
t.data = data + v.data;
return t;
}
qrgb444 qrgb444::byte_mul(quint8 a) const
{
quint16 t = (((data & 0xf0f0) * a) >> 4) & 0xf0f0;
t |= (((data & 0x0f0f) * a) >> 4) & 0x0f0f;
qrgb444 result;
result.data = t;
return result;
}
#ifdef QT_QWS_DEPTH_GENERIC
struct qrgb
{
public:
static int bpp;
static int len_red;
static int len_green;
static int len_blue;
static int len_alpha;
static int off_red;
static int off_green;
static int off_blue;
static int off_alpha;
} Q_PACKED;
template <typename SRC>
Q_STATIC_TEMPLATE_FUNCTION inline quint32 qt_convertToRgb(SRC color);
template <>
inline quint32 qt_convertToRgb(quint32 color)
{
const int r = qRed(color) >> (8 - qrgb::len_red);
const int g = qGreen(color) >> (8 - qrgb::len_green);
const int b = qBlue(color) >> (8 - qrgb::len_blue);
const int a = qAlpha(color) >> (8 - qrgb::len_alpha);
const quint32 v = (r << qrgb::off_red)
| (g << qrgb::off_green)
| (b << qrgb::off_blue)
| (a << qrgb::off_alpha);
return v;
}
template <>
inline quint32 qt_convertToRgb(quint16 color)
{
return qt_convertToRgb(qt_colorConvert<quint32, quint16>(color, 0));
}
class qrgb_generic16
{
public:
inline qrgb_generic16(quint32 color)
{
const int r = qRed(color) >> (8 - qrgb::len_red);
const int g = qGreen(color) >> (8 - qrgb::len_green);
const int b = qBlue(color) >> (8 - qrgb::len_blue);
const int a = qAlpha(color) >> (8 - qrgb::len_alpha);
data = (r << qrgb::off_red)
| (g << qrgb::off_green)
| (b << qrgb::off_blue)
| (a << qrgb::off_alpha);
}
inline operator quint16 () { return data; }
inline quint32 operator<<(int shift) const { return data << shift; }
private:
quint16 data;
} Q_PACKED;
template <>
inline qrgb_generic16 qt_colorConvert(quint32 color, qrgb_generic16 dummy)
{
Q_UNUSED(dummy);
return qrgb_generic16(color);
}
template <>
inline qrgb_generic16 qt_colorConvert(quint16 color, qrgb_generic16 dummy)
{
Q_UNUSED(dummy);
return qrgb_generic16(qt_colorConvert<quint32, quint16>(color, 0));
}
#endif // QT_QWS_DEPTH_GENERIC
template <class T>
void qt_memfill(T *dest, T value, int count);
template<> inline void qt_memfill(quint32 *dest, quint32 color, int count)
{
extern void (*qt_memfill32)(quint32 *dest, quint32 value, int count);
qt_memfill32(dest, color, count);
}
template<> inline void qt_memfill(quint16 *dest, quint16 color, int count)
{
extern void (*qt_memfill16)(quint16 *dest, quint16 value, int count);
qt_memfill16(dest, color, count);
}
template<> inline void qt_memfill(quint8 *dest, quint8 color, int count)
{
memset(dest, color, count);
}
template <class T>
inline void qt_memfill(T *dest, T value, int count)
{
if (!count)
return;
int n = (count + 7) / 8;
switch (count & 0x07)
{
case 0: do { *dest++ = value;
case 7: *dest++ = value;
case 6: *dest++ = value;
case 5: *dest++ = value;
case 4: *dest++ = value;
case 3: *dest++ = value;
case 2: *dest++ = value;
case 1: *dest++ = value;
} while (--n > 0);
}
}
template <class T>
inline void qt_rectfill(T *dest, T value,
int x, int y, int width, int height, int stride)
{
char *d = reinterpret_cast<char*>(dest + x) + y * stride;
if (uint(stride) == (width * sizeof(T))) {
qt_memfill(reinterpret_cast<T*>(d), value, width * height);
} else {
for (int j = 0; j < height; ++j) {
dest = reinterpret_cast<T*>(d);
qt_memfill(dest, value, width);
d += stride;
}
}
}
template <class DST, class SRC>
inline void qt_memconvert(DST *dest, const SRC *src, int count)
{
if (sizeof(DST) == 1) {
while (count) {
int n = 1;
const SRC color = *src++;
const DST dstColor = qt_colorConvert<DST, SRC>(color, 0);
while (--count && (*src == color || dstColor == qt_colorConvert<DST, SRC>(*src, 0))) {
++n;
++src;
}
qt_memfill(dest, dstColor, n);
dest += n;
}
} else {
/* Duff's device */
int n = (count + 7) / 8;
switch (count & 0x07)
{
case 0: do { *dest++ = qt_colorConvert<DST, SRC>(*src++, 0);
case 7: *dest++ = qt_colorConvert<DST, SRC>(*src++, 0);
case 6: *dest++ = qt_colorConvert<DST, SRC>(*src++, 0);
case 5: *dest++ = qt_colorConvert<DST, SRC>(*src++, 0);
case 4: *dest++ = qt_colorConvert<DST, SRC>(*src++, 0);
case 3: *dest++ = qt_colorConvert<DST, SRC>(*src++, 0);
case 2: *dest++ = qt_colorConvert<DST, SRC>(*src++, 0);
case 1: *dest++ = qt_colorConvert<DST, SRC>(*src++, 0);
} while (--n > 0);
}
}
}
#define QT_TRIVIAL_MEMCONVERT_IMPL(T) \
template <> \
inline void qt_memconvert(T *dest, const T *src, int count) \
{ \
memcpy(dest, src, count * sizeof(T)); \
}
QT_TRIVIAL_MEMCONVERT_IMPL(quint32)
QT_TRIVIAL_MEMCONVERT_IMPL(qrgb888)
QT_TRIVIAL_MEMCONVERT_IMPL(qargb6666)
QT_TRIVIAL_MEMCONVERT_IMPL(qrgb666)
QT_TRIVIAL_MEMCONVERT_IMPL(quint16)
QT_TRIVIAL_MEMCONVERT_IMPL(qrgb565)
QT_TRIVIAL_MEMCONVERT_IMPL(qargb8565)
QT_TRIVIAL_MEMCONVERT_IMPL(qargb8555)
QT_TRIVIAL_MEMCONVERT_IMPL(qrgb555)
QT_TRIVIAL_MEMCONVERT_IMPL(qargb4444)
QT_TRIVIAL_MEMCONVERT_IMPL(qrgb444)
#undef QT_TRIVIAL_MEMCONVERT_IMPL
#if Q_BYTE_ORDER == Q_LITTLE_ENDIAN
template <>
inline void qt_memconvert(qrgb666 *dest, const quint32 *src, int count)
{
if (count < 3) {
switch (count) {
case 2: *dest++ = qrgb666(*src++);
case 1: *dest = qrgb666(*src);
}
return;
}
const int align = (quintptr(dest) & 3);
switch (align) {
case 1: *dest++ = qrgb666(*src++); --count;
case 2: *dest++ = qrgb666(*src++); --count;
case 3: *dest++ = qrgb666(*src++); --count;
}
quint32 *dest32 = reinterpret_cast<quint32*>(dest);
int sourceCount = count >> 2;
while (sourceCount--) {
dest32[0] = ((src[1] & 0x00000c00) << 20)
| ((src[1] & 0x000000fc) << 22)
| ((src[0] & 0x00fc0000) >> 6)
| ((src[0] & 0x0000fc00) >> 4)
| ((src[0] & 0x000000fc) >> 2);
dest32[1] = ((src[2] & 0x003c0000) << 10)
| ((src[2] & 0x0000fc00) << 12)
| ((src[2] & 0x000000fc) << 14)
| ((src[1] & 0x00fc0000) >> 14)
| ((src[1] & 0x0000f000) >> 12);
dest32[2] = ((src[3] & 0x00fc0000) << 2)
| ((src[3] & 0x0000fc00) << 4)
| ((src[3] & 0x000000fc) << 6)
| ((src[2] & 0x00c00000) >> 22);
dest32 += 3;
src += 4;
}
dest = reinterpret_cast<qrgb666*>(dest32);
switch (count & 3) {
case 3: *dest++ = qrgb666(*src++);
case 2: *dest++ = qrgb666(*src++);
case 1: *dest = qrgb666(*src);
}
}
#endif // Q_BYTE_ORDER
template <class T>
inline void qt_rectcopy(T *dest, const T *src,
int x, int y, int width, int height,
int dstStride, int srcStride)
{
char *d = (char*)(dest + x) + y * dstStride;
const char *s = (char*)(src);
for (int i = 0; i < height; ++i) {
::memcpy(d, s, width * sizeof(T));
d += dstStride;
s += srcStride;
}
}
template <class DST, class SRC>
inline void qt_rectconvert(DST *dest, const SRC *src,
int x, int y, int width, int height,
int dstStride, int srcStride)
{
char *d = (char*)(dest + x) + y * dstStride;
const char *s = (char*)(src);
for (int i = 0; i < height; ++i) {
qt_memconvert<DST,SRC>((DST*)d, (const SRC*)s, width);
d += dstStride;
s += srcStride;
}
}
#define QT_RECTCONVERT_TRIVIAL_IMPL(T) \
template <> \
inline void qt_rectconvert(T *dest, const T *src, \
int x, int y, int width, int height, \
int dstStride, int srcStride) \
{ \
qt_rectcopy(dest, src, x, y, width, height, dstStride, srcStride); \
}
QT_RECTCONVERT_TRIVIAL_IMPL(quint32)
QT_RECTCONVERT_TRIVIAL_IMPL(qrgb888)
QT_RECTCONVERT_TRIVIAL_IMPL(qargb6666)
QT_RECTCONVERT_TRIVIAL_IMPL(qrgb666)
QT_RECTCONVERT_TRIVIAL_IMPL(qrgb565)
QT_RECTCONVERT_TRIVIAL_IMPL(qargb8565)
QT_RECTCONVERT_TRIVIAL_IMPL(quint16)
QT_RECTCONVERT_TRIVIAL_IMPL(qargb8555)
QT_RECTCONVERT_TRIVIAL_IMPL(qrgb555)
QT_RECTCONVERT_TRIVIAL_IMPL(qargb4444)
QT_RECTCONVERT_TRIVIAL_IMPL(qrgb444)
#undef QT_RECTCONVERT_TRIVIAL_IMPL
#ifdef QT_QWS_DEPTH_GENERIC
template <> void qt_rectconvert(qrgb *dest, const quint32 *src,
int x, int y, int width, int height,
int dstStride, int srcStride);
template <> void qt_rectconvert(qrgb *dest, const quint16 *src,
int x, int y, int width, int height,
int dstStride, int srcStride);
#endif // QT_QWS_DEPTH_GENERIC
#define QT_MEMFILL_UINT(dest, length, color) \
qt_memfill<quint32>(dest, color, length);
#define QT_MEMFILL_USHORT(dest, length, color) \
qt_memfill<quint16>(dest, color, length);
#define QT_MEMCPY_REV_UINT(dest, src, length) \
do { \
/* Duff's device */ \
uint *_d = (uint*)(dest) + length; \
const uint *_s = (uint*)(src) + length; \
register int n = ((length) + 7) / 8; \
switch ((length) & 0x07) \
{ \
case 0: do { *--_d = *--_s; \
case 7: *--_d = *--_s; \
case 6: *--_d = *--_s; \
case 5: *--_d = *--_s; \
case 4: *--_d = *--_s; \
case 3: *--_d = *--_s; \
case 2: *--_d = *--_s; \
case 1: *--_d = *--_s; \
} while (--n > 0); \
} \
} while (0)
#define QT_MEMCPY_USHORT(dest, src, length) \
do { \
/* Duff's device */ \
ushort *_d = (ushort*)(dest); \
const ushort *_s = (ushort*)(src); \
register int n = ((length) + 7) / 8; \
switch ((length) & 0x07) \
{ \
case 0: do { *_d++ = *_s++; \
case 7: *_d++ = *_s++; \
case 6: *_d++ = *_s++; \
case 5: *_d++ = *_s++; \
case 4: *_d++ = *_s++; \
case 3: *_d++ = *_s++; \
case 2: *_d++ = *_s++; \
case 1: *_d++ = *_s++; \
} while (--n > 0); \
} \
} while (0)
#if defined(Q_CC_RVCT)
# pragma push
# pragma arm
#endif
Q_STATIC_INLINE_FUNCTION int qt_div_255(int x) { return (x + (x>>8) + 0x80) >> 8; }
#if defined(Q_CC_RVCT)
# pragma pop
#endif
inline ushort qConvertRgb32To16(uint c)
{
return (((c) >> 3) & 0x001f)
| (((c) >> 5) & 0x07e0)
| (((c) >> 8) & 0xf800);
}
#if defined(Q_WS_QWS) || (QT_VERSION >= 0x040400)
inline quint32 qConvertRgb32To16x2(quint64 c)
{
c = (((c) >> 3) & Q_UINT64_C(0x001f0000001f))
| (((c) >> 5) & Q_UINT64_C(0x07e0000007e0))
| (((c) >> 8) & Q_UINT64_C(0xf8000000f800));
return c | (c >> 16);
}
#endif
inline QRgb qConvertRgb16To32(uint c)
{
return 0xff000000
| ((((c) << 3) & 0xf8) | (((c) >> 2) & 0x7))
| ((((c) << 5) & 0xfc00) | (((c) >> 1) & 0x300))
| ((((c) << 8) & 0xf80000) | (((c) << 3) & 0x70000));
}
inline int qRed565(quint16 rgb) {
const int r = (rgb & 0xf800);
return (r >> 8) | (r >> 13);
}
inline int qGreen565(quint16 rgb) {
const int g = (rgb & 0x07e0);
return (g >> 3) | (g >> 9);
}
inline int qBlue565(quint16 rgb) {
const int b = (rgb & 0x001f);
return (b << 3) | (b >> 2);
}
const uint qt_bayer_matrix[16][16] = {
{ 0x1, 0xc0, 0x30, 0xf0, 0xc, 0xcc, 0x3c, 0xfc,
0x3, 0xc3, 0x33, 0xf3, 0xf, 0xcf, 0x3f, 0xff},
{ 0x80, 0x40, 0xb0, 0x70, 0x8c, 0x4c, 0xbc, 0x7c,
0x83, 0x43, 0xb3, 0x73, 0x8f, 0x4f, 0xbf, 0x7f},
{ 0x20, 0xe0, 0x10, 0xd0, 0x2c, 0xec, 0x1c, 0xdc,
0x23, 0xe3, 0x13, 0xd3, 0x2f, 0xef, 0x1f, 0xdf},
{ 0xa0, 0x60, 0x90, 0x50, 0xac, 0x6c, 0x9c, 0x5c,
0xa3, 0x63, 0x93, 0x53, 0xaf, 0x6f, 0x9f, 0x5f},
{ 0x8, 0xc8, 0x38, 0xf8, 0x4, 0xc4, 0x34, 0xf4,
0xb, 0xcb, 0x3b, 0xfb, 0x7, 0xc7, 0x37, 0xf7},
{ 0x88, 0x48, 0xb8, 0x78, 0x84, 0x44, 0xb4, 0x74,
0x8b, 0x4b, 0xbb, 0x7b, 0x87, 0x47, 0xb7, 0x77},
{ 0x28, 0xe8, 0x18, 0xd8, 0x24, 0xe4, 0x14, 0xd4,
0x2b, 0xeb, 0x1b, 0xdb, 0x27, 0xe7, 0x17, 0xd7},
{ 0xa8, 0x68, 0x98, 0x58, 0xa4, 0x64, 0x94, 0x54,
0xab, 0x6b, 0x9b, 0x5b, 0xa7, 0x67, 0x97, 0x57},
{ 0x2, 0xc2, 0x32, 0xf2, 0xe, 0xce, 0x3e, 0xfe,
0x1, 0xc1, 0x31, 0xf1, 0xd, 0xcd, 0x3d, 0xfd},
{ 0x82, 0x42, 0xb2, 0x72, 0x8e, 0x4e, 0xbe, 0x7e,
0x81, 0x41, 0xb1, 0x71, 0x8d, 0x4d, 0xbd, 0x7d},
{ 0x22, 0xe2, 0x12, 0xd2, 0x2e, 0xee, 0x1e, 0xde,
0x21, 0xe1, 0x11, 0xd1, 0x2d, 0xed, 0x1d, 0xdd},
{ 0xa2, 0x62, 0x92, 0x52, 0xae, 0x6e, 0x9e, 0x5e,
0xa1, 0x61, 0x91, 0x51, 0xad, 0x6d, 0x9d, 0x5d},
{ 0xa, 0xca, 0x3a, 0xfa, 0x6, 0xc6, 0x36, 0xf6,
0x9, 0xc9, 0x39, 0xf9, 0x5, 0xc5, 0x35, 0xf5},
{ 0x8a, 0x4a, 0xba, 0x7a, 0x86, 0x46, 0xb6, 0x76,
0x89, 0x49, 0xb9, 0x79, 0x85, 0x45, 0xb5, 0x75},
{ 0x2a, 0xea, 0x1a, 0xda, 0x26, 0xe6, 0x16, 0xd6,
0x29, 0xe9, 0x19, 0xd9, 0x25, 0xe5, 0x15, 0xd5},
{ 0xaa, 0x6a, 0x9a, 0x5a, 0xa6, 0x66, 0x96, 0x56,
0xa9, 0x69, 0x99, 0x59, 0xa5, 0x65, 0x95, 0x55}
};
#define ARGB_COMBINE_ALPHA(argb, alpha) \
((((argb >> 24) * alpha) >> 8) << 24) | (argb & 0x00ffffff)
#if QT_POINTER_SIZE == 8 // 64-bit versions
#define AMIX(mask) (qMin(((qint64(s)&mask) + (qint64(d)&mask)), qint64(mask)))
#define MIX(mask) (qMin(((qint64(s)&mask) + (qint64(d)&mask)), qint64(mask)))
#else // 32 bits
// The mask for alpha can overflow over 32 bits
#define AMIX(mask) quint32(qMin(((qint64(s)&mask) + (qint64(d)&mask)), qint64(mask)))
#define MIX(mask) (qMin(((quint32(s)&mask) + (quint32(d)&mask)), quint32(mask)))
#endif
inline int comp_func_Plus_one_pixel_const_alpha(uint d, const uint s, const uint const_alpha, const uint one_minus_const_alpha)
{
const int result = (AMIX(AMASK) | MIX(RMASK) | MIX(GMASK) | MIX(BMASK));
return INTERPOLATE_PIXEL_255(result, const_alpha, d, one_minus_const_alpha);
}
inline int comp_func_Plus_one_pixel(uint d, const uint s)
{
const int result = (AMIX(AMASK) | MIX(RMASK) | MIX(GMASK) | MIX(BMASK));
return result;
}
#undef MIX
#undef AMIX
// prototypes of all the composition functions
void QT_FASTCALL comp_func_SourceOver(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_DestinationOver(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_Clear(uint *dest, const uint *, int length, uint const_alpha);
void QT_FASTCALL comp_func_Source(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_Destination(uint *, const uint *, int, uint);
void QT_FASTCALL comp_func_SourceIn(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_DestinationIn(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_SourceOut(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_DestinationOut(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_SourceAtop(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_DestinationAtop(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_XOR(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_Plus(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_Multiply(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_Screen(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_Overlay(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_Darken(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_Lighten(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_ColorDodge(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_ColorBurn(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_HardLight(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_SoftLight(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_Difference(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL comp_func_Exclusion(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL rasterop_SourceOrDestination(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL rasterop_SourceAndDestination(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL rasterop_SourceXorDestination(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL rasterop_NotSourceAndNotDestination(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL rasterop_NotSourceOrNotDestination(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL rasterop_NotSourceXorDestination(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL rasterop_NotSource(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL rasterop_NotSourceAndDestination(uint *dest, const uint *src, int length, uint const_alpha);
void QT_FASTCALL rasterop_SourceAndNotDestination(uint *dest, const uint *src, int length, uint const_alpha);
// prototypes of all the solid composition functions
void QT_FASTCALL comp_func_solid_SourceOver(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_DestinationOver(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Clear(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Source(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Destination(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_SourceIn(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_DestinationIn(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_SourceOut(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_DestinationOut(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_SourceAtop(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_DestinationAtop(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_XOR(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Plus(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Multiply(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Screen(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Overlay(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Darken(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Lighten(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_ColorDodge(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_ColorBurn(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_HardLight(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_SoftLight(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Difference(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL comp_func_solid_Exclusion(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL rasterop_solid_SourceOrDestination(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL rasterop_solid_SourceAndDestination(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL rasterop_solid_SourceXorDestination(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL rasterop_solid_NotSourceAndNotDestination(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL rasterop_solid_NotSourceOrNotDestination(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL rasterop_solid_NotSourceXorDestination(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL rasterop_solid_NotSource(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL rasterop_solid_NotSourceAndDestination(uint *dest, int length, uint color, uint const_alpha);
void QT_FASTCALL rasterop_solid_SourceAndNotDestination(uint *dest, int length, uint color, uint const_alpha);
QT_END_NAMESPACE
#endif // QDRAWHELPER_P_H
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