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|
/****************************************************************************
**
** Implementation of QColor class
**
** Created : 940112
**
** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
**
** This file is part of the kernel module of the Qt GUI Toolkit.
**
** This file may be used under the terms of the GNU General
** Public License versions 2.0 or 3.0 as published by the Free
** Software Foundation and appearing in the files LICENSE.GPL2
** and LICENSE.GPL3 included in the packaging of this file.
** Alternatively you may (at your option) use any later version
** of the GNU General Public License if such license has been
** publicly approved by Trolltech ASA (or its successors, if any)
** and the KDE Free Qt Foundation.
**
** Please review the following information to ensure GNU General
** Public Licensing requirements will be met:
** http://trolltech.com/products/qt/licenses/licensing/opensource/.
** If you are unsure which license is appropriate for your use, please
** review the following information:
** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
** or contact the sales department at [email protected].
**
** This file may be used under the terms of the Q Public License as
** defined by Trolltech ASA and appearing in the file LICENSE.QPL
** included in the packaging of this file. Licensees holding valid Qt
** Commercial licenses may use this file in accordance with the Qt
** Commercial License Agreement provided with the Software.
**
** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
** herein.
**
**********************************************************************/
#include "qcolor.h"
#include "qnamespace.h"
#include "qdatastream.h"
#include <stdio.h>
/*!
\class QColor qcolor.h
\brief The QColor class provides colors based on RGB or HSV values.
\ingroup images
\ingroup graphics
\ingroup appearance
A color is normally specified in terms of RGB (red, green and blue)
components, but it is also possible to specify HSV (hue, saturation
and value) or set a color name (the names are copied from from the
X11 color database).
In addition to the RGB value, a QColor also has a pixel value and a
validity. The pixel value is used by the underlying window system
to refer to a color. It can be thought of as an index into the
display hardware's color table.
The validity (isValid()) indicates whether the color is legal at
all. For example, a RGB color with RGB values out of range is
illegal. For performance reasons, QColor mostly disregards illegal
colors. The result of using an invalid color is unspecified and
will usually be surprising.
There are 19 predefined QColor objects: \c white, \c black, \c
red, \c darkRed, \c green, \c darkGreen, \c blue, \c darkBlue, \c
cyan, \c darkCyan, \c magenta, \c darkMagenta, \c yellow, \c
darkYellow, \c gray, \c darkGray, \c lightGray, \c color0 and \c
color1, accessible as members of the Qt namespace (ie. \c Qt::red).
\img qt-colors.png Qt Colors
The colors \c color0 (zero pixel value) and \c color1 (non-zero
pixel value) are special colors for drawing in \link QBitmap
bitmaps\endlink. Painting with \c color0 sets the bitmap bits to 0
(transparent, i.e. background), and painting with \c color1 sets the
bits to 1 (opaque, i.e. foreground).
The QColor class has an efficient, dynamic color allocation
strategy. A color is normally allocated the first time it is used
(lazy allocation), that is, whenever the pixel() function is called.
The following steps are taken to allocate a color. If, at any point,
a suitable color is found then the appropriate pixel value is
returned and the subsequent steps are not taken:
\list 1
\i Is the pixel value valid? If it is, just return it; otherwise,
allocate a pixel value.
\i Check an internal hash table to see if we allocated an equal RGB
value earlier. If we did, set the corresponding pixel value for the
color and return it.
\i Try to allocate the RGB value. If we succeed, we get a pixel value
that we save in the internal table with the RGB value.
Return the pixel value.
\i The color could not be allocated. Find the closest matching
color, save it in the internal table, and return it.
\endlist
A color can be set by passing setNamedColor() an RGB string like
"#112233", or a color name, e.g. "blue". The names are taken from
X11's rgb.txt database but can also be used under Windows. To get
a lighter or darker color use light() and dark() respectively.
Colors can also be set using setRgb() and setHsv(). The color
components can be accessed in one go with rgb() and hsv(), or
individually with red(), green() and blue().
Use maxColors() and numBitPlanes() to determine the maximum number
of colors and the number of bit planes supported by the underlying
window system,
If you need to allocate many colors temporarily, for example in an
image viewer application, enterAllocContext(), leaveAllocContext() and
destroyAllocContext() will prove useful.
\section1 HSV Colors
Because many people don't know the HSV color model very well, we'll
cover it briefly here.
The RGB model is hardware-oriented. Its representation is close to
what most monitors show. In contrast, HSV represents color in a way
more suited to the human perception of color. For example, the
relationships "stronger than", "darker than" and "the opposite of"
are easily expressed in HSV but are much harder to express in RGB.
HSV, like RGB, has three components:
\list
\i H, for hue, is either 0-359 if the color is chromatic (not
gray), or meaningless if it is gray. It represents degrees on the
color wheel familiar to most people. Red is 0 (degrees), green is
120 and blue is 240.
\i S, for saturation, is 0-255, and the bigger it is, the
stronger the color is. Grayish colors have saturation near 0; very
strong colors have saturation near 255.
\i V, for value, is 0-255 and represents lightness or brightness
of the color. 0 is black; 255 is as far from black as possible.
\endlist
Here are some examples: Pure red is H=0, S=255, V=255. A dark red,
moving slightly towards the magenta, could be H=350 (equivalent to
-10), S=255, V=180. A grayish light red could have H about 0 (say
350-359 or 0-10), S about 50-100, and S=255.
Qt returns a hue value of -1 for achromatic colors. If you pass a
too-big hue value, Qt forces it into range. Hue 360 or 720 is
treated as 0; hue 540 is treated as 180.
\sa QPalette, QColorGroup, QApplication::setColorSpec(),
\link http://www.poynton.com/ColorFAQ.html Color FAQ\endlink
*/
/*****************************************************************************
Global colors
*****************************************************************************/
#if defined(Q_WS_WIN)
#define COLOR0_PIX 0x00ffffff
#define COLOR1_PIX 0
#else
#define COLOR0_PIX 0
#define COLOR1_PIX 1
#endif
#if (defined(Q_CC_GNU) && defined(Q_OS_WIN))
// workaround - bug in mingw
static QColor stdcol[19] = {
QColor( 255, 255, 255 ),
QColor( 0, 0, 0 ),
QColor( 0, 0, 0 ),
QColor( 255, 255, 255 ),
QColor( 128, 128, 128 ),
QColor( 160, 160, 164 ),
QColor( 192, 192, 192 ),
QColor( 255, 0, 0 ),
QColor( 0, 255, 0 ),
QColor( 0, 0, 255 ),
QColor( 0, 255, 255 ),
QColor( 255, 0, 255 ),
QColor( 255, 255, 0 ),
QColor( 128, 0, 0 ),
QColor( 0, 128, 0 ),
QColor( 0, 0, 128 ),
QColor( 0, 128, 128 ),
QColor( 128, 0, 128 ),
QColor( 128, 128, 0 ) };
#else
static QColor stdcol[19];
#endif
QT_STATIC_CONST_IMPL QColor & Qt::color0 = stdcol[0];
QT_STATIC_CONST_IMPL QColor & Qt::color1 = stdcol[1];
QT_STATIC_CONST_IMPL QColor & Qt::black = stdcol[2];
QT_STATIC_CONST_IMPL QColor & Qt::white = stdcol[3];
QT_STATIC_CONST_IMPL QColor & Qt::darkGray = stdcol[4];
QT_STATIC_CONST_IMPL QColor & Qt::gray = stdcol[5];
QT_STATIC_CONST_IMPL QColor & Qt::lightGray = stdcol[6];
QT_STATIC_CONST_IMPL QColor & Qt::red = stdcol[7];
QT_STATIC_CONST_IMPL QColor & Qt::green = stdcol[8];
QT_STATIC_CONST_IMPL QColor & Qt::blue = stdcol[9];
QT_STATIC_CONST_IMPL QColor & Qt::cyan = stdcol[10];
QT_STATIC_CONST_IMPL QColor & Qt::magenta = stdcol[11];
QT_STATIC_CONST_IMPL QColor & Qt::yellow = stdcol[12];
QT_STATIC_CONST_IMPL QColor & Qt::darkRed = stdcol[13];
QT_STATIC_CONST_IMPL QColor & Qt::darkGreen = stdcol[14];
QT_STATIC_CONST_IMPL QColor & Qt::darkBlue = stdcol[15];
QT_STATIC_CONST_IMPL QColor & Qt::darkCyan = stdcol[16];
QT_STATIC_CONST_IMPL QColor & Qt::darkMagenta = stdcol[17];
QT_STATIC_CONST_IMPL QColor & Qt::darkYellow = stdcol[18];
/*****************************************************************************
QColor member functions
*****************************************************************************/
bool QColor::color_init = FALSE; // color system not initialized
bool QColor::globals_init = FALSE; // global color not initialized
QColor::ColorModel QColor::colormodel = d32;
QColor* QColor::globalColors()
{
return stdcol;
}
/*!
Initializes the global colors. This function is called if a global
color variable is initialized before the constructors for our
global color objects are executed. Without this mechanism,
assigning a color might assign an uninitialized value.
Example:
\code
QColor myColor = red; // will initialize red etc.
int main( int argc, char **argc )
{
}
\endcode
*/
void QColor::initGlobalColors()
{
globals_init = TRUE;
#ifdef Q_WS_X11
// HACK: we need a way to recognize color0 and color1 uniquely, so
// that we can use color0 and color1 with fixed pixel values on
// all screens
stdcol[ 0].d.argb = qRgba(255, 255, 255, 1);
stdcol[ 1].d.argb = qRgba( 0, 0, 0, 1);
#else
stdcol[ 0].d.argb = qRgb(255,255,255);
stdcol[ 1].d.argb = 0;
#endif // Q_WS_X11
stdcol[ 0].setPixel( COLOR0_PIX );
stdcol[ 1].setPixel( COLOR1_PIX );
// From the "The Palette Manager: How and Why" by Ron Gery, March 23,
// 1992, archived on MSDN:
// The Windows system palette is broken up into two sections,
// one with fixed colors and one with colors that can be changed
// by applications. The system palette predefines 20 entries;
// these colors are known as the static or reserved colors and
// consist of the 16 colors found in the Windows version 3.0 VGA
// driver and 4 additional colors chosen for their visual appeal.
// The DEFAULT_PALETTE stock object is, as the name implies, the
// default palette selected into a device context (DC) and consists
// of these static colors. Applications can set the remaining 236
// colors using the Palette Manager.
// The 20 reserved entries have indices in [0,9] and [246,255]. We
// reuse 17 of them.
stdcol[ 2].setRgb( 0, 0, 0 ); // index 0 black
stdcol[ 3].setRgb( 255, 255, 255 ); // index 255 white
stdcol[ 4].setRgb( 128, 128, 128 ); // index 248 medium gray
stdcol[ 5].setRgb( 160, 160, 164 ); // index 247 light gray
stdcol[ 6].setRgb( 192, 192, 192 ); // index 7 light gray
stdcol[ 7].setRgb( 255, 0, 0 ); // index 249 red
stdcol[ 8].setRgb( 0, 255, 0 ); // index 250 green
stdcol[ 9].setRgb( 0, 0, 255 ); // index 252 blue
stdcol[10].setRgb( 0, 255, 255 ); // index 254 cyan
stdcol[11].setRgb( 255, 0, 255 ); // index 253 magenta
stdcol[12].setRgb( 255, 255, 0 ); // index 251 yellow
stdcol[13].setRgb( 128, 0, 0 ); // index 1 dark red
stdcol[14].setRgb( 0, 128, 0 ); // index 2 dark green
stdcol[15].setRgb( 0, 0, 128 ); // index 4 dark blue
stdcol[16].setRgb( 0, 128, 128 ); // index 6 dark cyan
stdcol[17].setRgb( 128, 0, 128 ); // index 5 dark magenta
stdcol[18].setRgb( 128, 128, 0 ); // index 3 dark yellow
}
/*!
\enum QColor::Spec
The type of color specified, either RGB or HSV, e.g. in the
\c{QColor::QColor( x, y, z, colorSpec)} constructor.
\value Rgb
\value Hsv
*/
/*!
\fn QColor::QColor()
Constructs an invalid color with the RGB value (0, 0, 0). An
invalid color is a color that is not properly set up for the
underlying window system.
The alpha value of an invalid color is unspecified.
\sa isValid()
*/
/*!
\fn QColor::QColor( int r, int g, int b )
Constructs a color with the RGB value \a r, \a g, \a b, in the
same way as setRgb().
The color is left invalid if any or the arguments are illegal.
\sa setRgb()
*/
/*!
Constructs a color with the RGB value \a rgb and a custom pixel
value \a pixel.
If \a pixel == 0xffffffff (the default), then the color uses the
RGB value in a standard way. If \a pixel is something else, then
the pixel value is set directly to \a pixel, skipping the normal
allocation procedure.
*/
QColor::QColor( QRgb rgb, uint pixel )
{
if ( pixel == 0xffffffff ) {
setRgb( rgb );
} else {
d.argb = rgb;
setPixel( pixel );
}
}
void QColor::setPixel( uint pixel )
{
switch ( colormodel ) {
case d8:
d.d8.direct = TRUE;
d.d8.invalid = FALSE;
d.d8.dirty = FALSE;
d.d8.pix = pixel;
break;
case d32:
d.d32.pix = pixel;
break;
}
}
/*!
Constructs a color with the RGB or HSV value \a x, \a y, \a z.
The arguments are an RGB value if \a colorSpec is QColor::Rgb. \a
x (red), \a y (green), and \a z (blue). All of them must be in the
range 0-255.
The arguments are an HSV value if \a colorSpec is QColor::Hsv. \a
x (hue) must be -1 for achromatic colors and 0-359 for chromatic
colors; \a y (saturation) and \a z (value) must both be in the
range 0-255.
\sa setRgb(), setHsv()
*/
QColor::QColor( int x, int y, int z, Spec colorSpec )
{
d.d32.argb = Invalid;
d.d32.pix = Dirt;
if ( colorSpec == Hsv )
setHsv( x, y, z );
else
setRgb( x, y, z );
}
/*!
Constructs a named color in the same way as setNamedColor() using
name \a name.
The color is left invalid if \a name cannot be parsed.
\sa setNamedColor()
*/
QColor::QColor( const QString& name )
{
setNamedColor( name );
}
/*!
Constructs a named color in the same way as setNamedColor() using
name \a name.
The color is left invalid if \a name cannot be parsed.
\sa setNamedColor()
*/
QColor::QColor( const char *name )
{
setNamedColor( QString(name) );
}
/*!
Constructs a color that is a copy of \a c.
*/
QColor::QColor( const QColor &c )
{
if ( !globals_init )
initGlobalColors();
d.argb = c.d.argb;
d.d32.pix = c.d.d32.pix;
}
/*!
Assigns a copy of the color \a c and returns a reference to this
color.
*/
QColor &QColor::operator=( const QColor &c )
{
if ( !globals_init )
initGlobalColors();
d.argb = c.d.argb;
d.d32.pix = c.d.d32.pix;
return *this;
}
/*!
\fn bool QColor::isValid() const
Returns FALSE if the color is invalid, i.e. it was constructed using the
default constructor; otherwise returns TRUE.
*/
/*!
\internal
*/
bool QColor::isDirty() const
{
if ( colormodel == d8 ) {
return d.d8.dirty;
} else {
return d.d32.probablyDirty();
}
}
/*!
Returns the name of the color in the format "#RRGGBB", i.e. a "#"
character followed by three two-digit hexadecimal numbers.
\sa setNamedColor()
*/
QString QColor::name() const
{
#ifndef QT_NO_SPRINTF
QString s;
s.sprintf( "#%02x%02x%02x", red(), green(), blue() );
return s;
#else
char s[20];
sprintf( s, "#%02x%02x%02x", red(), green(), blue() );
return QString(s);
#endif
}
static int hex2int( QChar hexchar )
{
int v;
if ( hexchar.isDigit() )
v = hexchar.digitValue();
else if ( hexchar >= 'A' && hexchar <= 'F' )
v = hexchar.cell() - 'A' + 10;
else if ( hexchar >= 'a' && hexchar <= 'f' )
v = hexchar.cell() - 'a' + 10;
else
v = -1;
return v;
}
/*!
Sets the RGB value to \a name, which may be in one of these
formats:
\list
\i #RGB (each of R, G and B is a single hex digit)
\i #RRGGBB
\i #RRRGGGBBB
\i #RRRRGGGGBBBB
\i A name from the X color database (rgb.txt) (e.g.
"steelblue" or "gainsboro"). These color names also work
under Windows.
\endlist
The color is invalid if \a name cannot be parsed.
*/
void QColor::setNamedColor( const QString &name )
{
if ( name.isEmpty() ) {
d.argb = 0;
if ( colormodel == d8 ) {
d.d8.invalid = TRUE;
} else {
d.d32.argb = Invalid;
}
} else if ( name[0] == '#' ) {
const QChar *p = name.unicode()+1;
int len = name.length()-1;
int r, g, b;
if ( len == 12 ) {
r = (hex2int(p[0]) << 4) + hex2int(p[1]);
g = (hex2int(p[4]) << 4) + hex2int(p[5]);
b = (hex2int(p[8]) << 4) + hex2int(p[9]);
} else if ( len == 9 ) {
r = (hex2int(p[0]) << 4) + hex2int(p[1]);
g = (hex2int(p[3]) << 4) + hex2int(p[4]);
b = (hex2int(p[6]) << 4) + hex2int(p[7]);
} else if ( len == 6 ) {
r = (hex2int(p[0]) << 4) + hex2int(p[1]);
g = (hex2int(p[2]) << 4) + hex2int(p[3]);
b = (hex2int(p[4]) << 4) + hex2int(p[5]);
} else if ( len == 3 ) {
r = (hex2int(p[0]) << 4) + hex2int(p[0]);
g = (hex2int(p[1]) << 4) + hex2int(p[1]);
b = (hex2int(p[2]) << 4) + hex2int(p[2]);
} else {
r = g = b = -1;
}
if ( (uint)r > 255 || (uint)g > 255 || (uint)b > 255 ) {
d.d32.argb = Invalid;
d.d32.pix = Dirt;
#if defined(QT_CHECK_RANGE)
qWarning( "QColor::setNamedColor: could not parse color '%s'",
name.local8Bit().data() );
#endif
} else {
setRgb( r, g, b );
}
} else {
setSystemNamedColor( name );
}
}
#undef max
#undef min
/*!
\fn void QColor::getHsv( int &h, int &s, int &v ) const
\obsolete
*/
/*! \fn void QColor::getHsv( int *h, int *s, int *v ) const
Returns the current RGB value as HSV. The contents of the \a h, \a
s and \a v pointers are set to the HSV values. If any of the three
pointers are null, the function does nothing.
The hue (which \a h points to) is set to -1 if the color is
achromatic.
\warning Colors are stored internally as RGB values, so getHSv()
may return slightly different values to those set by setHsv().
\sa setHsv(), rgb()
*/
/*! \obsolete Use getHsv() instead.
*/
void QColor::hsv( int *h, int *s, int *v ) const
{
if ( !h || !s || !v )
return;
int r = qRed(d.argb);
int g = qGreen(d.argb);
int b = qBlue(d.argb);
uint max = r; // maximum RGB component
int whatmax = 0; // r=>0, g=>1, b=>2
if ( (uint)g > max ) {
max = g;
whatmax = 1;
}
if ( (uint)b > max ) {
max = b;
whatmax = 2;
}
uint min = r; // find minimum value
if ( (uint)g < min ) min = g;
if ( (uint)b < min ) min = b;
int delta = max-min;
*v = max; // calc value
*s = max ? (510*delta+max)/(2*max) : 0;
if ( *s == 0 ) {
*h = -1; // undefined hue
} else {
switch ( whatmax ) {
case 0: // red is max component
if ( g >= b )
*h = (120*(g-b)+delta)/(2*delta);
else
*h = (120*(g-b+delta)+delta)/(2*delta) + 300;
break;
case 1: // green is max component
if ( b > r )
*h = 120 + (120*(b-r)+delta)/(2*delta);
else
*h = 60 + (120*(b-r+delta)+delta)/(2*delta);
break;
case 2: // blue is max component
if ( r > g )
*h = 240 + (120*(r-g)+delta)/(2*delta);
else
*h = 180 + (120*(r-g+delta)+delta)/(2*delta);
break;
}
}
}
/*!
Sets a HSV color value. \a h is the hue, \a s is the saturation
and \a v is the value of the HSV color.
If \a s or \a v are not in the range 0-255, or \a h is < -1, the
color is not changed.
\warning Colors are stored internally as RGB values, so getHSv()
may return slightly different values to those set by setHsv().
\sa hsv(), setRgb()
*/
void QColor::setHsv( int h, int s, int v )
{
if ( h < -1 || (uint)s > 255 || (uint)v > 255 ) {
#if defined(QT_CHECK_RANGE)
qWarning( "QColor::setHsv: HSV parameters out of range" );
#endif
return;
}
int r=v, g=v, b=v;
if ( s == 0 || h == -1 ) { // achromatic case
// Ignore
} else { // chromatic case
if ( (uint)h >= 360 )
h %= 360;
uint f = h%60;
h /= 60;
uint p = (uint)(2*v*(255-s)+255)/510;
uint q, t;
if ( h&1 ) {
q = (uint)(2*v*(15300-s*f)+15300)/30600;
switch( h ) {
case 1: r=(int)q; g=(int)v, b=(int)p; break;
case 3: r=(int)p; g=(int)q, b=(int)v; break;
case 5: r=(int)v; g=(int)p, b=(int)q; break;
}
} else {
t = (uint)(2*v*(15300-(s*(60-f)))+15300)/30600;
switch( h ) {
case 0: r=(int)v; g=(int)t, b=(int)p; break;
case 2: r=(int)p; g=(int)v, b=(int)t; break;
case 4: r=(int)t; g=(int)p, b=(int)v; break;
}
}
}
setRgb( r, g, b );
}
/*!
\fn QRgb QColor::rgb() const
Returns the RGB value.
The return type \e QRgb is equivalent to \c unsigned \c int.
For an invalid color, the alpha value of the returned color is
unspecified.
\sa setRgb(), hsv(), qRed(), qBlue(), qGreen(), isValid()
*/
/*! \fn void QColor::getRgb( int *r, int *g, int *b ) const
Sets the contents pointed to by \a r, \a g and \a b to the red,
green and blue components of the RGB value respectively. The value
range for a component is 0..255.
\sa rgb(), setRgb(), getHsv()
*/
/*! \obsolete Use getRgb() instead */
void QColor::rgb( int *r, int *g, int *b ) const
{
*r = qRed(d.argb);
*g = qGreen(d.argb);
*b = qBlue(d.argb);
}
/*!
Sets the RGB value to \a r, \a g, \a b. The arguments, \a r, \a g
and \a b must all be in the range 0..255. If any of them are
outside the legal range, the color is not changed.
\sa rgb(), setHsv()
*/
void QColor::setRgb( int r, int g, int b )
{
if ( (uint)r > 255 || (uint)g > 255 || (uint)b > 255 ) {
#if defined(QT_CHECK_RANGE)
qWarning( "QColor::setRgb: RGB parameter(s) out of range" );
#endif
return;
}
d.argb = qRgb( r, g, b );
if ( colormodel == d8 ) {
d.d8.invalid = FALSE;
d.d8.direct = FALSE;
d.d8.dirty = TRUE;
} else {
d.d32.pix = Dirt;
}
}
/*!
\overload
Sets the RGB value to \a rgb.
The type \e QRgb is equivalent to \c unsigned \c int.
\sa rgb(), setHsv()
*/
void QColor::setRgb( QRgb rgb )
{
d.argb = rgb;
if ( colormodel == d8 ) {
d.d8.invalid = FALSE;
d.d8.direct = FALSE;
d.d8.dirty = TRUE;
} else {
d.d32.pix = Dirt;
}
}
/*!
\fn int QColor::red() const
Returns the R (red) component of the RGB value.
*/
/*!
\fn int QColor::green() const
Returns the G (green) component of the RGB value.
*/
/*!
\fn int QColor::blue() const
Returns the B (blue) component of the RGB value.
*/
/*!
Returns a lighter (or darker) color, but does not change this
object.
Returns a lighter color if \a factor is greater than 100. Setting
\a factor to 150 returns a color that is 50% brighter.
Returns a darker color if \a factor is less than 100. We recommend
using dark() for this purpose. If \a factor is 0 or negative, the
return value is unspecified.
(This function converts the current RGB color to HSV, multiplies V
by \a factor, and converts the result back to RGB.)
\sa dark()
*/
QColor QColor::light( int factor ) const
{
if ( factor <= 0 ) // invalid lightness factor
return *this;
else if ( factor < 100 ) // makes color darker
return dark( 10000/factor );
int h, s, v;
hsv( &h, &s, &v );
v = (factor*v)/100;
if ( v > 255 ) { // overflow
s -= v-255; // adjust saturation
if ( s < 0 )
s = 0;
v = 255;
}
QColor c;
c.setHsv( h, s, v );
return c;
}
/*!
Returns a darker (or lighter) color, but does not change this
object.
Returns a darker color if \a factor is greater than 100. Setting
\a factor to 300 returns a color that has one-third the
brightness.
Returns a lighter color if \a factor is less than 100. We
recommend using lighter() for this purpose. If \a factor is 0 or
negative, the return value is unspecified.
(This function converts the current RGB color to HSV, divides V by
\a factor and converts back to RGB.)
\sa light()
*/
QColor QColor::dark( int factor ) const
{
if ( factor <= 0 ) // invalid darkness factor
return *this;
else if ( factor < 100 ) // makes color lighter
return light( 10000/factor );
int h, s, v;
hsv( &h, &s, &v );
v = (v*100)/factor;
QColor c;
c.setHsv( h, s, v );
return c;
}
/*!
\fn bool QColor::operator==( const QColor &c ) const
Returns TRUE if this color has the same RGB value as \a c;
otherwise returns FALSE.
*/
/*!
\fn bool QColor::operator!=( const QColor &c ) const
Returns TRUE if this color has a different RGB value from \a c;
otherwise returns FALSE.
*/
/*!
Returns the pixel value.
This value is used by the underlying window system to refer to a
color. It can be thought of as an index into the display
hardware's color table, but the value is an arbitrary 32-bit
value.
\sa alloc()
*/
uint QColor::pixel() const
{
if ( isDirty() )
return ((QColor*)this)->alloc();
else if ( colormodel == d8 )
#ifdef Q_WS_WIN
// since d.d8.pix is uchar we have to use the PALETTEINDEX
// macro to get the respective palette entry index.
return (0x01000000 | (int)(short)(d.d8.pix));
#else
return d.d8.pix;
#endif
else
return d.d32.pix;
}
/*!
\fn QStringList QColor::colorNames()
Returns a QStringList containing the color names Qt knows about.
*/
/*****************************************************************************
QColor stream functions
*****************************************************************************/
#ifndef QT_NO_DATASTREAM
/*!
\relates QColor
Writes a color object, \a c to the stream, \a s.
\sa \link datastreamformat.html Format of the QDataStream operators \endlink
*/
QDataStream &operator<<( QDataStream &s, const QColor &c )
{
Q_UINT32 p = (Q_UINT32)c.rgb();
if ( s.version() == 1 ) // Swap red and blue
p = ((p << 16) & 0xff0000) | ((p >> 16) & 0xff) | (p & 0xff00ff00);
return s << p;
}
/*!
\relates QColor
Reads a color object, \a c, from the stream, \a s.
\sa \link datastreamformat.html Format of the QDataStream operators \endlink
*/
QDataStream &operator>>( QDataStream &s, QColor &c )
{
Q_UINT32 p;
s >> p;
if ( s.version() == 1 ) // Swap red and blue
p = ((p << 16) & 0xff0000) | ((p >> 16) & 0xff) | (p & 0xff00ff00);
c.setRgb( p );
return s;
}
#endif
/*****************************************************************************
QColor global functions (documentation only)
*****************************************************************************/
/*!
\fn int qRed( QRgb rgb )
\relates QColor
Returns the red component of the RGB triplet \a rgb.
\sa qRgb(), QColor::red()
*/
/*!
\fn int qGreen( QRgb rgb )
\relates QColor
Returns the green component of the RGB triplet \a rgb.
\sa qRgb(), QColor::green()
*/
/*!
\fn int qBlue( QRgb rgb )
\relates QColor
Returns the blue component of the RGB triplet \a rgb.
\sa qRgb(), QColor::blue()
*/
/*!
\fn int qAlpha( QRgb rgba )
\relates QColor
Returns the alpha component of the RGBA quadruplet \a rgba.
*/
/*!
\fn QRgb qRgb( int r, int g, int b )
\relates QColor
Returns the RGB triplet \a (r,g,b).
The return type QRgb is equivalent to \c unsigned \c int.
\sa qRgba(), qRed(), qGreen(), qBlue()
*/
/*!
\fn QRgb qRgba( int r, int g, int b, int a )
\relates QColor
Returns the RGBA quadruplet \a (r,g,b,a).
The return type QRgba is equivalent to \c unsigned \c int.
\sa qRgb(), qRed(), qGreen(), qBlue()
*/
/*!
\fn int qGray( int r, int g, int b )
\relates QColor
Returns a gray value 0..255 from the (\a r, \a g, \a b) triplet.
The gray value is calculated using the formula (r*11 + g*16 +
b*5)/32.
*/
/*!
\overload int qGray( qRgb rgb )
\relates QColor
Returns a gray value 0..255 from the given \a rgb colour.
*/
|