d6/d5d/qquicksvgparser_8cpp_source.html

// Copyright (C) 2016 The Qt Company Ltd.

// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only


#include "qquicksvgparser_p.h"


#include <QtCore/qmath.h>

#include <QtCore/qvarlengtharray.h>

#include <QtCore/qstring.h>


#include <private/qlocale_tools_p.h>


QT_BEGIN_NAMESPACE


// '0' is 0x30 and '9' is 0x39


static inline bool isDigit(ushort ch)

{

    static quint16 magic = 0x3ff;

    return ((ch >> 4) == 3) && (magic >> (ch & 15));

}


static qreal toDouble(const QChar *&str)

{

    const int maxLen = 255;//technically doubles can go til 308+ but whatever

    char temp[maxLen+1];

    int pos = 0;


    if (*str == QLatin1Char('-')) {

        temp[pos++] = '-';

        ++str;

    } else if (*str == QLatin1Char('+')) {

        ++str;

    }

    while (isDigit(str->unicode()) && pos < maxLen) {

        temp[pos++] = str->toLatin1();

        ++str;

    }

    if (*str == QLatin1Char('.') && pos < maxLen) {

        temp[pos++] = '.';

        ++str;

    }

    while (isDigit(str->unicode()) && pos < maxLen) {

        temp[pos++] = str->toLatin1();

        ++str;

    }

    bool exponent = false;

    if ((*str == QLatin1Char('e') || *str == QLatin1Char('E')) && pos < maxLen) {

        exponent = true;

        temp[pos++] = 'e';

        ++str;

        if ((*str == QLatin1Char('-') || *str == QLatin1Char('+')) && pos < maxLen) {

            temp[pos++] = str->toLatin1();

            ++str;

        }

        while (isDigit(str->unicode()) && pos < maxLen) {

            temp[pos++] = str->toLatin1();

            ++str;

        }

    }


    temp[pos] = '\0';


    qreal val;

    if (!exponent && pos < 10) {

        int ival = 0;

        const char *t = temp;

        bool neg = false;

        if(*t == '-') {

            neg = true;

            ++t;

        }

        while(*t && *t != '.') {

            ival *= 10;

            ival += (*t) - '0';

            ++t;

        }

        if(*t == '.') {

            ++t;

            int div = 1;

            while(*t) {

                ival *= 10;

                ival += (*t) - '0';

                div *= 10;

                ++t;

            }

            val = ((qreal)ival)/((qreal)div);

        } else {

            val = ival;

        }

        if (neg)

            val = -val;

    } else {

        bool ok = false;

        val = qstrtod(temp, nullptr, &ok);

    }

    return val;


}


static inline void parseNumbersArray(const QChar *&str, QVarLengthArray<qreal, 8> &points)

{

    while (str->isSpace())

        ++str;

    while (isDigit(str->unicode()) ||

           *str == QLatin1Char('-') || *str == QLatin1Char('+') ||

           *str == QLatin1Char('.')) {


        points.append(toDouble(str));


        while (str->isSpace())

            ++str;

        if (*str == QLatin1Char(','))

            ++str;


        //eat the rest of space

        while (str->isSpace())

            ++str;

    }

}


static void pathArcSegment(QPainterPath &path,

                           qreal xc, qreal yc,

                           qreal th0, qreal th1,

                           qreal rx, qreal ry, qreal xAxisRotation)

{

    qreal sinTh, cosTh;

    qreal a00, a01, a10, a11;

    qreal x1, y1, x2, y2, x3, y3;

    qreal t;

    qreal thHalf;


    sinTh = qSin(qDegreesToRadians(xAxisRotation));

    cosTh = qCos(qDegreesToRadians(xAxisRotation));


    a00 =  cosTh * rx;

    a01 = -sinTh * ry;

    a10 =  sinTh * rx;

    a11 =  cosTh * ry;


    thHalf = 0.5 * (th1 - th0);

    t = (8.0 / 3.0) * qSin(thHalf * 0.5) * qSin(thHalf * 0.5) / qSin(thHalf);

    x1 = xc + qCos(th0) - t * qSin(th0);

    y1 = yc + qSin(th0) + t * qCos(th0);

    x3 = xc + qCos(th1);

    y3 = yc + qSin(th1);

    x2 = x3 + t * qSin(th1);

    y2 = y3 - t * qCos(th1);


    path.cubicTo(a00 * x1 + a01 * y1, a10 * x1 + a11 * y1,

                 a00 * x2 + a01 * y2, a10 * x2 + a11 * y2,

                 a00 * x3 + a01 * y3, a10 * x3 + a11 * y3);

}


void QQuickSvgParser::pathArc(QPainterPath &path,

                    qreal               rx,

                    qreal               ry,

                    qreal               x_axis_rotation,

                    int         large_arc_flag,

                    int         sweep_flag,

                    qreal               x,

                    qreal               y,

                    qreal curx, qreal cury)

{

    qreal sin_th, cos_th;

    qreal a00, a01, a10, a11;

    qreal x0, y0, x1, y1, xc, yc;

    qreal d, sfactor, sfactor_sq;

    qreal th0, th1, th_arc;

    int i, n_segs;

    qreal dx, dy, dx1, dy1, Pr1, Pr2, Px, Py, check;


    rx = qAbs(rx);

    ry = qAbs(ry);


    sin_th = qSin(qDegreesToRadians(x_axis_rotation));

    cos_th = qCos(qDegreesToRadians(x_axis_rotation));


    dx = (curx - x) / 2.0;

    dy = (cury - y) / 2.0;

    dx1 =  cos_th * dx + sin_th * dy;

    dy1 = -sin_th * dx + cos_th * dy;

    Pr1 = rx * rx;

    Pr2 = ry * ry;

    Px = dx1 * dx1;

    Py = dy1 * dy1;

    /* Spec : check if radii are large enough */

    check = Px / Pr1 + Py / Pr2;

    if (check > 1) {

        rx = rx * qSqrt(check);

        ry = ry * qSqrt(check);

    }


    a00 =  cos_th / rx;

    a01 =  sin_th / rx;

    a10 = -sin_th / ry;

    a11 =  cos_th / ry;

    x0 = a00 * curx + a01 * cury;

    y0 = a10 * curx + a11 * cury;

    x1 = a00 * x + a01 * y;

    y1 = a10 * x + a11 * y;

    /* (x0, y0) is current point in transformed coordinate space.

       (x1, y1) is new point in transformed coordinate space.


       The arc fits a unit-radius circle in this space.

    */

    d = (x1 - x0) * (x1 - x0) + (y1 - y0) * (y1 - y0);

    sfactor_sq = 1.0 / d - 0.25;

    if (sfactor_sq < 0) sfactor_sq = 0;

    sfactor = qSqrt(sfactor_sq);

    if (sweep_flag == large_arc_flag) sfactor = -sfactor;

    xc = 0.5 * (x0 + x1) - sfactor * (y1 - y0);

    yc = 0.5 * (y0 + y1) + sfactor * (x1 - x0);

    /* (xc, yc) is center of the circle. */


    th0 = qAtan2(y0 - yc, x0 - xc);

    th1 = qAtan2(y1 - yc, x1 - xc);


    th_arc = th1 - th0;

    if (th_arc < 0 && sweep_flag)

        th_arc += 2 * M_PI;

    else if (th_arc > 0 && !sweep_flag)

        th_arc -= 2 * M_PI;


    n_segs = qCeil(qAbs(th_arc / (M_PI * 0.5 + 0.001)));


    for (i = 0; i < n_segs; i++) {

        pathArcSegment(path, xc, yc,

                       th0 + i * th_arc / n_segs,

                       th0 + (i + 1) * th_arc / n_segs,

                       rx, ry, x_axis_rotation);

    }

}


bool QQuickSvgParser::parsePathDataFast(const QString &dataStr, QPainterPath &path)

{

    qreal x0 = 0, y0 = 0;              // starting point

    qreal x = 0, y = 0;                // current point

    char lastMode = 0;

    QPointF ctrlPt;

    const QChar *str = dataStr.constData();

    const QChar *end = str + dataStr.size();


    while (str != end) {

        while (str->isSpace())

            ++str;

        QChar pathElem = *str;

        ++str;

        QVarLengthArray<qreal, 8> arg;

        parseNumbersArray(str, arg);

        if (pathElem == QLatin1Char('z') || pathElem == QLatin1Char('Z'))

            arg.append(0);//dummy

        const qreal *num = arg.constData();

        int count = arg.size();

        while (count > 0) {

            qreal offsetX = x;        // correction offsets

            qreal offsetY = y;        // for relative commands

            switch (pathElem.unicode()) {

            case 'm': {

                if (count < 2) {

                    num++;

                    count--;

                    break;

                }

                x = x0 = num[0] + offsetX;

                y = y0 = num[1] + offsetY;

                num += 2;

                count -= 2;

                path.moveTo(x0, y0);


                 // As per 1.2  spec 8.3.2 The "moveto" commands

                 // If a 'moveto' is followed by multiple pairs of coordinates without explicit commands,

                 // the subsequent pairs shall be treated as implicit 'lineto' commands.

                 pathElem = QLatin1Char('l');

            }

                break;

            case 'M': {

                if (count < 2) {

                    num++;

                    count--;

                    break;

                }

                x = x0 = num[0];

                y = y0 = num[1];

                num += 2;

                count -= 2;

                path.moveTo(x0, y0);


                // As per 1.2  spec 8.3.2 The "moveto" commands

                // If a 'moveto' is followed by multiple pairs of coordinates without explicit commands,

                // the subsequent pairs shall be treated as implicit 'lineto' commands.

                pathElem = QLatin1Char('L');

            }

                break;

            case 'z':

            case 'Z': {

                x = x0;

                y = y0;

                count--; // skip dummy

                num++;

                path.closeSubpath();

            }

                break;

            case 'l': {

                if (count < 2) {

                    num++;

                    count--;

                    break;

                }

                x = num[0] + offsetX;

                y = num[1] + offsetY;

                num += 2;

                count -= 2;

                path.lineTo(x, y);


            }

                break;

            case 'L': {

                if (count < 2) {

                    num++;

                    count--;

                    break;

                }

                x = num[0];

                y = num[1];

                num += 2;

                count -= 2;

                path.lineTo(x, y);

            }

                break;

            case 'h': {

                x = num[0] + offsetX;

                num++;

                count--;

                path.lineTo(x, y);

            }

                break;

            case 'H': {

                x = num[0];

                num++;

                count--;

                path.lineTo(x, y);

            }

                break;

            case 'v': {

                y = num[0] + offsetY;

                num++;

                count--;

                path.lineTo(x, y);

            }

                break;

            case 'V': {

                y = num[0];

                num++;

                count--;

                path.lineTo(x, y);

            }

                break;

            case 'c': {

                if (count < 6) {

                    num += count;

                    count = 0;

                    break;

                }

                QPointF c1(num[0] + offsetX, num[1] + offsetY);

                QPointF c2(num[2] + offsetX, num[3] + offsetY);

                QPointF e(num[4] + offsetX, num[5] + offsetY);

                num += 6;

                count -= 6;

                path.cubicTo(c1, c2, e);

                ctrlPt = c2;

                x = e.x();

                y = e.y();

                break;

            }

            case 'C': {

                if (count < 6) {

                    num += count;

                    count = 0;

                    break;

                }

                QPointF c1(num[0], num[1]);

                QPointF c2(num[2], num[3]);

                QPointF e(num[4], num[5]);

                num += 6;

                count -= 6;

                path.cubicTo(c1, c2, e);

                ctrlPt = c2;

                x = e.x();

                y = e.y();

                break;

            }

            case 's': {

                if (count < 4) {

                    num += count;

                    count = 0;

                    break;

                }

                QPointF c1;

                if (lastMode == 'c' || lastMode == 'C' ||

                    lastMode == 's' || lastMode == 'S')

                    c1 = QPointF(2*x-ctrlPt.x(), 2*y-ctrlPt.y());

                else

                    c1 = QPointF(x, y);

                QPointF c2(num[0] + offsetX, num[1] + offsetY);

                QPointF e(num[2] + offsetX, num[3] + offsetY);

                num += 4;

                count -= 4;

                path.cubicTo(c1, c2, e);

                ctrlPt = c2;

                x = e.x();

                y = e.y();

                break;

            }

            case 'S': {

                if (count < 4) {

                    num += count;

                    count = 0;

                    break;

                }

                QPointF c1;

                if (lastMode == 'c' || lastMode == 'C' ||

                    lastMode == 's' || lastMode == 'S')

                    c1 = QPointF(2*x-ctrlPt.x(), 2*y-ctrlPt.y());

                else

                    c1 = QPointF(x, y);

                QPointF c2(num[0], num[1]);

                QPointF e(num[2], num[3]);

                num += 4;

                count -= 4;

                path.cubicTo(c1, c2, e);

                ctrlPt = c2;

                x = e.x();

                y = e.y();

                break;

            }

            case 'q': {

                if (count < 4) {

                    num += count;

                    count = 0;

                    break;

                }

                QPointF c(num[0] + offsetX, num[1] + offsetY);

                QPointF e(num[2] + offsetX, num[3] + offsetY);

                num += 4;

                count -= 4;

                path.quadTo(c, e);

                ctrlPt = c;

                x = e.x();

                y = e.y();

                break;

            }

            case 'Q': {

                if (count < 4) {

                    num += count;

                    count = 0;

                    break;

                }

                QPointF c(num[0], num[1]);

                QPointF e(num[2], num[3]);

                num += 4;

                count -= 4;

                path.quadTo(c, e);

                ctrlPt = c;

                x = e.x();

                y = e.y();

                break;

            }

            case 't': {

                if (count < 2) {

                    num += count;

                    count = 0;

                    break;

                }

                QPointF e(num[0] + offsetX, num[1] + offsetY);

                num += 2;

                count -= 2;

                QPointF c;

                if (lastMode == 'q' || lastMode == 'Q' ||

                    lastMode == 't' || lastMode == 'T')

                    c = QPointF(2*x-ctrlPt.x(), 2*y-ctrlPt.y());

                else

                    c = QPointF(x, y);

                path.quadTo(c, e);

                ctrlPt = c;

                x = e.x();

                y = e.y();

                break;

            }

            case 'T': {

                if (count < 2) {

                    num += count;

                    count = 0;

                    break;

                }

                QPointF e(num[0], num[1]);

                num += 2;

                count -= 2;

                QPointF c;

                if (lastMode == 'q' || lastMode == 'Q' ||

                    lastMode == 't' || lastMode == 'T')

                    c = QPointF(2*x-ctrlPt.x(), 2*y-ctrlPt.y());

                else

                    c = QPointF(x, y);

                path.quadTo(c, e);

                ctrlPt = c;

                x = e.x();

                y = e.y();

                break;

            }

            case 'a': {

                if (count < 7) {

                    num += count;

                    count = 0;

                    break;

                }

                qreal rx = (*num++);

                qreal ry = (*num++);

                qreal xAxisRotation = (*num++);

                qreal largeArcFlag  = (*num++);

                qreal sweepFlag = (*num++);

                qreal ex = (*num++) + offsetX;

                qreal ey = (*num++) + offsetY;

                count -= 7;

                qreal curx = x;

                qreal cury = y;

                pathArc(path, rx, ry, xAxisRotation, int(largeArcFlag),

                        int(sweepFlag), ex, ey, curx, cury);


                x = ex;

                y = ey;

            }

                break;

            case 'A': {

                if (count < 7) {

                    num += count;

                    count = 0;

                    break;

                }

                qreal rx = (*num++);

                qreal ry = (*num++);

                qreal xAxisRotation = (*num++);

                qreal largeArcFlag  = (*num++);

                qreal sweepFlag = (*num++);

                qreal ex = (*num++);

                qreal ey = (*num++);

                count -= 7;

                qreal curx = x;

                qreal cury = y;

                pathArc(path, rx, ry, xAxisRotation, int(largeArcFlag),

                        int(sweepFlag), ex, ey, curx, cury);


                x = ex;

                y = ey;

            }

                break;

            default:

                return false;

            }

            lastMode = pathElem.toLatin1();

        }

    }

    return true;

}


QT_END_NAMESPACE

QChar
\inmodule QtCore

QPainterPath
\inmodule QtGui
Definition qpainterpath.h:29

QPointF
\inmodule QtCore\reentrant
Definition qpoint.h:217

QPointF::x
constexpr qreal x() const noexcept
Returns the x coordinate of this point.
Definition qpoint.h:343

QPointF::y
constexpr qreal y() const noexcept
Returns the y coordinate of this point.
Definition qpoint.h:348

QString
\macro QT_RESTRICTED_CAST_FROM_ASCII
Definition qstring.h:129

QString::toLatin1
QByteArray toLatin1() const &
Definition qstring.h:630

QString::constData
const QChar * constData() const
Returns a pointer to the data stored in the QString.
Definition qstring.h:1246

QString::size
qsizetype size() const noexcept
Returns the number of characters in this string.
Definition qstring.h:186

QString::append
QString & append(QChar c)
Definition qstring.cpp:3252

QString::unicode
const QChar * unicode() const
Returns a Unicode representation of the string.
Definition qstring.h:1230

str
QString str
[2]
Definition doc_src_containers.cpp:177

i
i
[1]
Definition doc_src_containers.cpp:169

QQuickSvgParser::pathArc
Q_QUICK_EXPORT void pathArc(QPainterPath &path, qreal rx, qreal ry, qreal x_axis_rotation, int large_arc_flag, int sweep_flag, qreal x, qreal y, qreal curx, qreal cury)
Definition qquicksvgparser.cpp:152

QQuickSvgParser::parsePathDataFast
bool parsePathDataFast(const QString &dataStr, QPainterPath &path)
Definition qquicksvgparser.cpp:233

QT_BEGIN_NAMESPACE
Combined button and popup list for selecting options.
Definition qstandardpaths_haiku.cpp:21

QT_END_NAMESPACE
Definition qsharedpointer.cpp:1590

qSqrt
qfloat16 qSqrt(qfloat16 f)
Definition qfloat16.h:289

qstrtod
double qstrtod(const char *s00, char const **se, bool *ok)
Definition qlocale_tools_p.h:79

qAtan2
auto qAtan2(T1 y, T2 x)
Definition qmath.h:90

qCos
auto qCos(T v)
Definition qmath.h:60

qCeil
int qCeil(T v)
Definition qmath.h:36

M_PI
#define M_PI
Definition qmath.h:209

qSin
auto qSin(T v)
Definition qmath.h:54

qDegreesToRadians
constexpr float qDegreesToRadians(float degrees)
Definition qmath.h:260

qAbs
constexpr T qAbs(const T &t)
Definition qnumeric.h:328

x
GLint GLint GLint GLint GLint x
[0]
Definition qopengles2ext.h:605

y1
GLuint GLfloat GLfloat GLfloat GLfloat y1
Definition qopengles2ext.h:2707

end
GLuint GLuint end
Definition qopengles2ext.h:354

x1
GLuint GLfloat GLfloat GLfloat x1
Definition qopengles2ext.h:2707

count
GLenum GLenum GLsizei count
Definition qopengles2ext.h:150

x0
GLuint GLfloat x0
Definition qopengles2ext.h:2707

y0
GLuint GLfloat GLfloat y0
Definition qopengles2ext.h:2707

y
GLint y
Definition qopengles2ext.h:206

points
GLfixed GLfixed GLint GLint GLfixed points
Definition qopenglext.h:5206

c
const GLubyte * c
Definition qopenglext.h:12701

val
GLuint GLfloat * val
Definition qopenglext.h:1513

y2
GLfixed GLfixed GLfixed y2
Definition qopenglext.h:5231

exponent
GLint * exponent
Definition qopenglext.h:5358

x2
GLfixed GLfixed x2
Definition qopenglext.h:5231

t
GLdouble GLdouble t
Definition qopenglext.h:243

path
GLsizei const GLchar *const  * path
Definition qopenglext.h:4283

num
GLuint num
Definition qopenglext.h:5654

isDigit
static QT_BEGIN_NAMESPACE bool isDigit(ushort ch)
Definition qquicksvgparser.cpp:15

toDouble
static qreal toDouble(const QChar *&str)
Definition qquicksvgparser.cpp:21

pathArcSegment
static void pathArcSegment(QPainterPath &path, qreal xc, qreal yc, qreal th0, qreal th1, qreal rx, qreal ry, qreal xAxisRotation)
Definition qquicksvgparser.cpp:119

parseNumbersArray
static void parseNumbersArray(const QChar *&str, QVarLengthArray< qreal, 8 > &points)
Definition qquicksvgparser.cpp:98

qquicksvgparser_p.h

arg
SSL_CTX int void * arg
Definition qsslsocket_openssl_symbols.cpp:402

pathArc
static void pathArc(QPainterPath &path, qreal rx, qreal ry, qreal x_axis_rotation, int large_arc_flag, int sweep_flag, qreal x, qreal y, qreal curx, qreal cury)
Definition qsvghandler.cpp:1521

magic
static const uchar magic[MagicLength]
Definition qtranslator.cpp:55

quint16
unsigned short quint16
Definition qtypes.h:48

ushort
unsigned short ushort
Definition qtypes.h:33

qreal
double qreal
Definition qtypes.h:187

pos
pos
[7]
Definition src_corelib_io_qsettings.cpp:57

ch
char ch
Definition src_corelib_io_qtextstream.cpp:30

c2
MyCustomStruct c2
Definition src_corelib_kernel_qvariant.cpp:56

ok
bool ok
[2]
Definition src_corelib_text_qbytearrayview.cpp:17

d
double d
Definition src_corelib_text_qlocale.cpp:9

ry
p ry()++

rx
p rx()++

QLatin1Char
\inmodule QtCore \reentrant
Definition qchar.h:18