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author | Lars Knoll <lars.knoll@nokia.com> | 2011-04-14 19:38:45 (GMT) |
---|---|---|
committer | Lars Knoll <lars.knoll@nokia.com> | 2011-05-12 07:40:08 (GMT) |
commit | 37c329a3e35fabc88fbcad824a69f37c671d2132 (patch) | |
tree | 1243d8f2d12564dc43681b37b55d33128d88e0e3 /src/gui | |
parent | c5846314dfd80e7f7f32ba737f1884dcccbbd80d (diff) | |
download | Qt-37c329a3e35fabc88fbcad824a69f37c671d2132.zip Qt-37c329a3e35fabc88fbcad824a69f37c671d2132.tar.gz Qt-37c329a3e35fabc88fbcad824a69f37c671d2132.tar.bz2 |
New algorithm for drawing thin lines
Added a new QCosmeticStroker class for drawing thin
lines. The class can handle both aliased and antialiased
lines.
The code replaces all the midpoint line drawing algorithms in
the raster paintengine and gives correct subpixel positioning
for lines.
It gives around 30% to 50% speedup against the midpoint algorithm. If
we missed that fast path, the speedup is around between a factor of
6 to 8 for lines and aliased paths and 100 and 400 for antialiased
paths.
Reviewed-by: Kim
Diffstat (limited to 'src/gui')
-rw-r--r-- | src/gui/painting/painting.pri | 4 | ||||
-rw-r--r-- | src/gui/painting/qcosmeticstroker.cpp | 954 | ||||
-rw-r--r-- | src/gui/painting/qcosmeticstroker_p.h | 101 | ||||
-rw-r--r-- | src/gui/painting/qpaintengine_raster.cpp | 1520 | ||||
-rw-r--r-- | src/gui/painting/qpaintengine_raster_p.h | 5 | ||||
-rw-r--r-- | src/gui/painting/qpaintengineex.cpp | 2 |
6 files changed, 1137 insertions, 1449 deletions
diff --git a/src/gui/painting/painting.pri b/src/gui/painting/painting.pri index 65e7af4..13a9ba1 100644 --- a/src/gui/painting/painting.pri +++ b/src/gui/painting/painting.pri @@ -6,6 +6,7 @@ HEADERS += \ painting/qcolor.h \ painting/qcolor_p.h \ painting/qcolormap.h \ + painting/qcosmeticstroker_p.h \ painting/qdrawutil.h \ painting/qemulationpaintengine_p.h \ painting/qgraphicssystem_p.h \ @@ -14,7 +15,7 @@ HEADERS += \ painting/qoutlinemapper_p.h \ painting/qpaintdevice.h \ painting/qpaintengine.h \ - painting/qpaintengine_p.h \ + painting/qpaintengine_p.h \ painting/qpaintengine_alpha_p.h \ painting/qpaintengine_preview_p.h \ painting/qpaintengineex_p.h \ @@ -53,6 +54,7 @@ SOURCES += \ painting/qbrush.cpp \ painting/qcolor.cpp \ painting/qcolor_p.cpp \ + painting/qcosmeticstroker.cpp \ painting/qcssutil.cpp \ painting/qdrawutil.cpp \ painting/qemulationpaintengine.cpp \ diff --git a/src/gui/painting/qcosmeticstroker.cpp b/src/gui/painting/qcosmeticstroker.cpp new file mode 100644 index 0000000..498b154 --- /dev/null +++ b/src/gui/painting/qcosmeticstroker.cpp @@ -0,0 +1,954 @@ +#include "qcosmeticstroker_p.h" +#include "private/qpainterpath_p.h" +#include <qdebug.h> +#include <math.h> + +#if 0 +inline QString capString(int caps) +{ + QString str; + if (caps & QCosmeticStroker::CapBegin) { + str += "CapBegin "; + } + if (caps & QCosmeticStroker::CapEnd) { + str += "CapEnd "; + } + return str; +} +#endif + +#define toF26Dot6(x) ((int)((x)*64.)) + +static inline uint sourceOver(uint d, uint color) +{ + return color + BYTE_MUL(d, qAlpha(~color)); +} + +inline static int F16Dot16FixedDiv(int x, int y) +{ + if (qAbs(x) > 0x7fff) + return (((qlonglong)x) << 16) / y; + return (x << 16) / y; +} + +typedef void (*DrawPixel)(QCosmeticStroker *stroker, int x, int y, int coverage); + +namespace { + +struct Dasher { + QCosmeticStroker *stroker; + int *pattern; + int offset; + int dashIndex; + int dashOn; + + Dasher(QCosmeticStroker *s, bool reverse, int start, int stop) + : stroker(s) + { + int delta = stop - start; + if (reverse) { + pattern = stroker->reversePattern; + offset = stroker->patternLength - stroker->patternOffset - delta - ((start & 63) - 32); + dashOn = 0; + } else { + pattern = stroker->pattern; + offset = stroker->patternOffset - ((start & 63) - 32); + dashOn = 1; + } + offset %= stroker->patternLength; + if (offset < 0) + offset += stroker->patternLength; + + dashIndex = 0; + while (offset>= pattern[dashIndex]) + ++dashIndex; + +// qDebug() << " dasher" << offset/64. << reverse << dashIndex; + stroker->patternOffset += delta; + stroker->patternOffset %= stroker->patternLength; + } + + bool on() const { + return (dashIndex + dashOn) & 1; + } + void adjust() { + offset += 64; + if (offset >= pattern[dashIndex]) { + ++dashIndex; + dashIndex %= stroker->patternSize; + } + offset %= stroker->patternLength; +// qDebug() << "dasher.adjust" << offset/64. << dashIndex; + } +}; + +struct NoDasher { + NoDasher(QCosmeticStroker *, bool, int, int) {} + bool on() const { return true; } + void adjust(int = 0) {} +}; + +}; + +template<DrawPixel drawPixel, class Dasher> +static void drawLine(QCosmeticStroker *stroker, qreal x1, qreal y1, qreal x2, qreal y2, int caps); +template<DrawPixel drawPixel, class Dasher> +static void drawLineAA(QCosmeticStroker *stroker, qreal x1, qreal y1, qreal x2, qreal y2, int caps); + +inline void drawPixel(QCosmeticStroker *stroker, int x, int y, int coverage) +{ + int lastx = stroker->spans[stroker->current_span-1].x + stroker->spans[stroker->current_span-1].len ; + int lasty = stroker->spans[stroker->current_span-1].y; + + if (stroker->current_span == QCosmeticStroker::NSPANS || y < lasty || (y == lasty && x < lastx)) { + stroker->blend(stroker->current_span, stroker->spans, &stroker->state->penData); + stroker->current_span = 0; + } + + stroker->spans[stroker->current_span].x = ushort(x); + stroker->spans[stroker->current_span].len = 1; + stroker->spans[stroker->current_span].y = y; + stroker->spans[stroker->current_span].coverage = coverage*stroker->opacity >> 8; + ++stroker->current_span; +} + +inline void drawPixelARGB32(QCosmeticStroker *stroker, int x, int y, int coverage) +{ + const QRect &cl = stroker->clip; + if (x < cl.x() || x > cl.right() || y < cl.y() || y > cl.bottom()) + return; + + int offset = x + stroker->ppl*y; + uint c = BYTE_MUL(stroker->color, coverage); + stroker->pixels[offset] = sourceOver(stroker->pixels[offset], c); +} + +inline void drawPixelARGB32Opaque(QCosmeticStroker *stroker, int x, int y, int) +{ + const QRect &cl = stroker->clip; + if (x < cl.x() || x > cl.right() || y < cl.y() || y > cl.bottom()) + return; + + int offset = x + stroker->ppl*y; + stroker->pixels[offset] = sourceOver(stroker->pixels[offset], stroker->color); +} + +enum StrokeSelection { + Aliased = 0, + AntiAliased = 1, + Solid = 0, + Dashed = 2, + RegularDraw = 0, + FastDraw = 4 +}; + +static StrokeLine strokeLine(int strokeSelection) +{ + StrokeLine stroke; + + switch (strokeSelection) { + case Aliased|Solid|RegularDraw: + stroke = &::drawLine<drawPixel, NoDasher>; + break; + case Aliased|Solid|FastDraw: + stroke = &::drawLine<drawPixelARGB32Opaque, NoDasher>; + break; + case Aliased|Dashed|RegularDraw: + stroke = &::drawLine<drawPixel, Dasher>; + break; + case Aliased|Dashed|FastDraw: + stroke = &::drawLine<drawPixelARGB32Opaque, Dasher>; + break; + case AntiAliased|Solid|RegularDraw: + stroke = &drawLineAA<drawPixel, NoDasher>; + break; + case AntiAliased|Solid|FastDraw: + stroke = &drawLineAA<drawPixelARGB32, NoDasher>; + break; + case AntiAliased|Dashed|RegularDraw: + stroke = &drawLineAA<drawPixel, Dasher>; + break; + case AntiAliased|Dashed|FastDraw: + stroke = &drawLineAA<drawPixelARGB32, Dasher>; + break; + default: + Q_ASSERT(false); + stroke = 0; + } + return stroke; +} + +void QCosmeticStroker::setup() +{ + blend = state->penData.blend; + if (state->clip && state->clip->enabled && state->clip->hasRectClip && !state->clip->clipRect.isEmpty()) { + clip &= state->clip->clipRect; + blend = state->penData.unclipped_blend; + } + + int strokeSelection = 0; + if (blend == state->penData.unclipped_blend + && state->penData.type == QSpanData::Solid + && (state->penData.rasterBuffer->format == QImage::Format_ARGB32_Premultiplied + || state->penData.rasterBuffer->format == QImage::Format_RGB32) + && state->compositionMode() == QPainter::CompositionMode_SourceOver) + strokeSelection |= FastDraw; + + if (state->renderHints & QPainter::Antialiasing) + strokeSelection |= AntiAliased; + + const QVector<qreal> &penPattern = state->lastPen.dashPattern(); + if (penPattern.isEmpty()) { + Q_ASSERT(!pattern && !reversePattern); + pattern = 0; + reversePattern = 0; + patternLength = 0; + patternSize = 0; + } else { + pattern = (int *)malloc(penPattern.size()*sizeof(int)); + reversePattern = (int *)malloc(penPattern.size()*sizeof(int)); + patternSize = penPattern.size(); + + patternLength = 0; + for (int i = 0; i < patternSize; ++i) { + patternLength += (int) qMax(1. , penPattern.at(i)*64.); + pattern[i] = patternLength; + } + patternLength = 0; + for (int i = 0; i < patternSize; ++i) { + patternLength += (int) qMax(1., penPattern.at(patternSize - 1 - i)*64.); + reversePattern[i] = patternLength; + } + strokeSelection |= Dashed; +// qDebug() << "setup: size=" << patternSize << "length=" << patternLength/64.; + } + + stroke = strokeLine(strokeSelection); + + qreal width = state->lastPen.widthF(); + if (width == 0) + opacity = 256; + else if (state->lastPen.isCosmetic()) + opacity = (int) 256*width; + else + opacity = (int) 256*width*state->txscale; + opacity = qBound(0, opacity, 256); + + drawCaps = state->lastPen.capStyle() != Qt::FlatCap; + + if (strokeSelection & FastDraw) { + color = INTERPOLATE_PIXEL_256(state->penData.solid.color, opacity, 0, 0); + QRasterBuffer *buffer = state->penData.rasterBuffer; + pixels = (uint *)buffer->buffer(); + ppl = buffer->bytesPerLine()>>2; + } + + // setup FP clip bounds + xmin = clip.left() - 1; + xmax = clip.right() + 2; + ymin = clip.top() - 1; + ymax = clip.bottom() + 2; + + lastPixel.x = -1; +} + +// returns true if the whole line gets clipped away +bool QCosmeticStroker::clipLine(qreal &x1, qreal &y1, qreal &x2, qreal &y2) +{ + // basic/rough clipping is done in floating point coordinates to avoid + // integer overflow problems. + if (x1 < xmin) { + if (x2 <= xmin) + goto clipped; + y1 += (y2 - y1)/(x2 - x1) * (xmin - x1); + x1 = xmin; + } else if (x1 > xmax) { + if (x2 >= xmax) + goto clipped; + y1 += (y2 - y1)/(x2 - x1) * (xmax - x1); + x1 = xmax; + } + if (x2 < xmin) { + lastPixel.x = -1; + y2 += (y2 - y1)/(x2 - x1) * (xmin - x2); + x2 = xmin; + } else if (x2 > xmax) { + lastPixel.x = -1; + y2 += (y2 - y1)/(x2 - x1) * (xmax - x2); + x2 = xmax; + } + + if (y1 < ymin) { + if (y2 <= ymin) + goto clipped; + x1 += (x2 - x1)/(y2 - y1) * (ymin - y1); + y1 = ymin; + } else if (y1 > ymax) { + if (y2 >= ymax) + goto clipped; + x1 += (x2 - x1)/(y2 - y1) * (ymax - y1); + y1 = ymax; + } + if (y2 < ymin) { + lastPixel.x = -1; + x2 += (x2 - x1)/(y2 - y1) * (ymin - y2); + y2 = ymin; + } else if (y2 > ymax) { + lastPixel.x = -1; + x2 += (x2 - x1)/(y2 - y1) * (ymax - y2); + y2 = ymax; + } + + return false; + + clipped: + lastPixel.x = -1; + return true; +} + + +void QCosmeticStroker::drawLine(const QPointF &p1, const QPointF &p2) +{ + QPointF start = p1 * state->matrix; + QPointF end = p2 * state->matrix; + + patternOffset = state->lastPen.dashOffset()*64; + lastPixel.x = -1; + + stroke(this, start.x(), start.y(), end.x(), end.y(), drawCaps ? CapBegin|CapEnd : 0); + + blend(current_span, spans, &state->penData); + current_span = 0; +} + +void QCosmeticStroker::drawPoints(const QPoint *points, int num) +{ + const QPoint *end = points + num; + while (points < end) { + QPointF p = QPointF(*points) * state->matrix; + drawPixel(this, qRound(p.x()), qRound(p.y()), 255); + ++points; + } + + blend(current_span, spans, &state->penData); + current_span = 0; +} + +void QCosmeticStroker::drawPoints(const QPointF *points, int num) +{ + const QPointF *end = points + num; + while (points < end) { + QPointF p = (*points) * state->matrix; + drawPixel(this, qRound(p.x()), qRound(p.y()), 255); + ++points; + } + + blend(current_span, spans, &state->penData); + current_span = 0; +} + +void QCosmeticStroker::calculateLastPoint(qreal rx1, qreal ry1, qreal rx2, qreal ry2) +{ + // this is basically the same code as used in the aliased stroke method, + // but it only determines the direction and last point of a line + // + // This is being used to have proper dropout control for closed contours + // by calculating the direction and last pixel of the last segment in the contour. + // the info is then used to perform dropout control when drawing the first line segment + // of the contour + lastPixel.x = -1; + lastPixel.y = -1; + + if (clipLine(rx1, ry1, rx2, ry2)) + return; + + int x1 = toF26Dot6(rx1); + int y1 = toF26Dot6(ry1); + int x2 = toF26Dot6(rx2); + int y2 = toF26Dot6(ry2); + + int dx = qAbs(x2 - x1); + int dy = qAbs(y2 - y1); + + if (dx < dy) { + // vertical + bool swapped = false; + if (y1 > y2) { + swapped = true; + qSwap(y1, y2); + qSwap(x1, x2); + } + int xinc = F16Dot16FixedDiv(x2 - x1, y2 - y1); + int x = x1 << 10; + + int y = (y1+32) >> 6; + int ys = (y2+32) >> 6; + + if (y != ys) { + x += ( ((((y << 6) + 32 - y1))) * xinc ) >> 6; + + if (swapped) { + lastPixel.x = x >> 16; + lastPixel.y = y; + lastDir = QCosmeticStroker::BottomToTop; + } else { + lastPixel.x = (x + (ys - y - 1)*xinc) >> 16; + lastPixel.y = ys - 1; + lastDir = QCosmeticStroker::TopToBottom; + } + lastAxisAligned = qAbs(xinc) < (1 << 14); + } + } else { + // horizontal + if (!dx) + return; + + bool swapped = false; + if (x1 > x2) { + swapped = true; + qSwap(x1, x2); + qSwap(y1, y2); + } + int yinc = F16Dot16FixedDiv(y2 - y1, x2 - x1); + int y = y1 << 10; + + int x = (x1+32) >> 6; + int xs = (x2+32) >> 6; + + if (x != xs) { + y += ( ((((x << 6) + 32 - x1))) * yinc ) >> 6; + + if (swapped) { + lastPixel.x = x; + lastPixel.y = y >> 16; + lastDir = QCosmeticStroker::RightToLeft; + } else { + lastPixel.x = xs - 1; + lastPixel.y = (y + (xs - x - 1)*yinc) >> 16; + lastDir = QCosmeticStroker::LeftToRight; + } + lastAxisAligned = qAbs(yinc) < (1 << 14); + } + } +// qDebug() << " moveTo: setting last pixel to x/y dir" << lastPixel.x << lastPixel.y << lastDir; +} + +static inline const QPainterPath::ElementType *subPath(const QPainterPath::ElementType *t, const QPainterPath::ElementType *end, + const qreal *points, bool *closed) +{ + const QPainterPath::ElementType *start = t; + ++t; + + // find out if the subpath is closed + while (t < end) { + if (*t == QPainterPath::MoveToElement) + break; + ++t; + } + + int offset = t - start - 1; +// qDebug() << "subpath" << offset << points[0] << points[1] << points[2*offset] << points[2*offset+1]; + *closed = (points[0] == points[2*offset] && points[1] == points[2*offset + 1]); + + return t; +} + +void QCosmeticStroker::drawPath(const QVectorPath &path) +{ +// qDebug() << ">>>> drawpath" << path.convertToPainterPath() +// << "antialiasing:" << (bool)(state->renderHints & QPainter::Antialiasing) << " implicit close:" << path.hasImplicitClose(); + if (path.isEmpty()) + return; + + const qreal *points = path.points(); + const QPainterPath::ElementType *type = path.elements(); + + if (type) { + const QPainterPath::ElementType *end = type + path.elementCount(); + + while (type < end) { + Q_ASSERT(type == path.elements() || *type == QPainterPath::MoveToElement); + + QPointF p = QPointF(points[0], points[1]) * state->matrix; + QPointF movedTo = p; + patternOffset = state->lastPen.dashOffset()*64; + lastPixel.x = -1; + + bool closed; + const QPainterPath::ElementType *e = subPath(type, end, points, &closed); + if (closed) { + const qreal *p = points + 2*(e-type); + calculateLastPoint(p[-4], p[-3], p[-2], p[-1]); + } + int caps = (!closed & drawCaps) ? CapBegin : NoCaps; +// qDebug() << "closed =" << closed << capString(caps); + + points += 2; + ++type; + + while (type < e) { + QPointF p2 = QPointF(points[0], points[1]) * state->matrix; + switch (*type) { + case QPainterPath::MoveToElement: + Q_ASSERT(!"Logic error"); + break; + + case QPainterPath::LineToElement: + if (!closed && drawCaps && type == e - 1) + caps |= CapEnd; + stroke(this, p.x(), p.y(), p2.x(), p2.y(), caps); + p = p2; + points += 2; + ++type; + break; + + case QPainterPath::CurveToElement: { + if (!closed && drawCaps && type == e - 3) + caps |= CapEnd; + QPointF p3 = QPointF(points[2], points[3]) * state->matrix; + QPointF p4 = QPointF(points[4], points[5]) * state->matrix; + renderCubic(p, p2, p3, p4, caps); + p = p4; + type += 3; + points += 6; + break; + } + case QPainterPath::CurveToDataElement: + Q_ASSERT(!"QPainterPath::toSubpathPolygons(), bad element type"); + break; + } + caps = NoCaps; + } + } + } else { // !type, simple polygon + QPointF p = QPointF(points[0], points[1]) * state->matrix; + QPointF movedTo = p; + patternOffset = state->lastPen.dashOffset()*64; + lastPixel.x = -1; + + const qreal *end = points + 2*path.elementCount(); + // handle closed path case + bool closed = path.hasImplicitClose() || (points[0] == end[-2] && points[1] == end[-1]); + int caps = (!closed & drawCaps) ? CapBegin : NoCaps; + if (closed) + calculateLastPoint(end[-2], end[-1], points[0], points[1]); + + points += 2; + while (points < end) { + QPointF p2 = QPointF(points[0], points[1]) * state->matrix; + + if (!closed && drawCaps && points == end - 2) + caps |= CapEnd; + + stroke(this, p.x(), p.y(), p2.x(), p2.y(), caps); + + p = p2; + points += 2; + caps = NoCaps; + } + if (path.hasImplicitClose()) + stroke(this, p.x(), p.y(), movedTo.x(), movedTo.y(), NoCaps); + } + + + blend(current_span, spans, &state->penData); + current_span = 0; +} + +void QCosmeticStroker::renderCubic(const QPointF &p1, const QPointF &p2, const QPointF &p3, const QPointF &p4, int caps) +{ +// qDebug() << ">>>> renderCubic" << p1 << p2 << p3 << p4 << capString(caps); + const int maxSubDivisions = 6; + PointF points[3*maxSubDivisions + 4]; + + points[3].x = p1.x(); + points[3].y = p1.y(); + points[2].x = p2.x(); + points[2].y = p2.y(); + points[1].x = p3.x(); + points[1].y = p3.y(); + points[0].x = p4.x(); + points[0].y = p4.y(); + + PointF *p = points; + int level = maxSubDivisions; + + renderCubicSubdivision(p, level, caps); +} + +static void splitCubic(QCosmeticStroker::PointF *points) +{ + const qreal half = .5; + qreal a, b, c, d; + + points[6].x = points[3].x; + c = points[1].x; + d = points[2].x; + points[1].x = a = ( points[0].x + c ) * half; + points[5].x = b = ( points[3].x + d ) * half; + c = ( c + d ) * half; + points[2].x = a = ( a + c ) * half; + points[4].x = b = ( b + c ) * half; + points[3].x = ( a + b ) * half; + + points[6].y = points[3].y; + c = points[1].y; + d = points[2].y; + points[1].y = a = ( points[0].y + c ) * half; + points[5].y = b = ( points[3].y + d ) * half; + c = ( c + d ) * half; + points[2].y = a = ( a + c ) * half; + points[4].y = b = ( b + c ) * half; + points[3].y = ( a + b ) * half; +} + +void QCosmeticStroker::renderCubicSubdivision(QCosmeticStroker::PointF *points, int level, int caps) +{ + if (level) { + qreal dx = points[3].x - points[0].x; + qreal dy = points[3].y - points[0].y; + qreal len = ((qreal).25) * (qAbs(dx) + qAbs(dy)); + + if (qAbs(dx * (points[0].y - points[2].y) - dy * (points[0].x - points[2].x)) > len || + qAbs(dx * (points[0].y - points[1].y) - dy * (points[0].x - points[1].x)) > len) { + splitCubic(points); + + --level; + renderCubicSubdivision(points + 3, level, caps & CapBegin); + renderCubicSubdivision(points, level, caps & CapEnd); + return; + } + } + + stroke(this, points[3].x, points[3].y, points[0].x, points[0].y, caps); +} + +static inline int swapCaps(int caps) +{ + return ((caps & QCosmeticStroker::CapBegin) << 1) | + ((caps & QCosmeticStroker::CapEnd) >> 1); +} + +// adjust line by half a pixel +static inline void capAdjust(int caps, int &x1, int &x2, int &y, int yinc) +{ + if (caps & QCosmeticStroker::CapBegin) { + x1 -= 32; + y -= yinc >> 1; + } + if (caps & QCosmeticStroker::CapEnd) { + x2 += 32; + } +} + +/* + The hard part about this is dropout control and avoiding douple drawing of points when + the drawing shifts from horizontal to vertical or back. + */ +template<DrawPixel drawPixel, class Dasher> +static void drawLine(QCosmeticStroker *stroker, qreal rx1, qreal ry1, qreal rx2, qreal ry2, int caps) +{ + if (stroker->clipLine(rx1, ry1, rx2, ry2)) + return; + + static const int half = 32; + int x1 = toF26Dot6(rx1) + half; + int y1 = toF26Dot6(ry1) + half; + int x2 = toF26Dot6(rx2) + half; + int y2 = toF26Dot6(ry2) + half; + + int dx = qAbs(x2 - x1); + int dy = qAbs(y2 - y1); + + QCosmeticStroker::Point last = stroker->lastPixel; + +// qDebug() << "stroke" << x1/64. << y1/64. << x2/64. << y2/64. << capString(caps); + + if (dx < dy) { + // vertical + + bool swapped = false; + if (y1 > y2) { + swapped = true; + qSwap(y1, y2); + qSwap(x1, x2); + caps = swapCaps(caps); + --x1; --x2; --y1; --y2; + } + int xinc = F16Dot16FixedDiv(x2 - x1, y2 - y1); + int x = x1 << 10; + + capAdjust(caps, y1, y2, x, xinc); + + int y = (y1+32) >> 6; + int ys = (y2+32) >> 6; + + if (y != ys) { + x += ( ((((y << 6) + 32 - y1))) * xinc ) >> 6; + + // calculate first and last pixel and perform dropout control + QCosmeticStroker::Direction dir = QCosmeticStroker::TopToBottom; + QCosmeticStroker::Point first; + first.x = x >> 16; + first.y = y; + last.x = (x + (ys - y - 1)*xinc) >> 16; + last.y = ys - 1; + if (swapped) { + qSwap(first, last); + dir = QCosmeticStroker::BottomToTop; + } + bool axisAligned = qAbs(xinc) < (1 << 14); + if (stroker->lastPixel.x >= 0) { + if (first.x == stroker->lastPixel.x && + first.y == stroker->lastPixel.y) { + // remove duplicated pixel + if (swapped) { + --ys; + } else { + ++y; + x += xinc; + } + } else if (stroker->lastDir != dir && + (((axisAligned && stroker->lastAxisAligned) && + stroker->lastPixel.x != first.x && stroker->lastPixel.y != first.y) || + (qAbs(stroker->lastPixel.x - first.x) > 1 && + qAbs(stroker->lastPixel.y - first.y) > 1))) { + // have a missing pixel, insert it + if (swapped) { + ++ys; + } else { + --y; + x -= xinc; + } + } + } + stroker->lastDir = dir; + stroker->lastAxisAligned = axisAligned; + + Dasher dasher(stroker, swapped, y << 6, ys << 6); + + do { + if (dasher.on()) + drawPixel(stroker, x >> 16, y, 255); + dasher.adjust(); + x += xinc; + } while (++y < ys); + } + } else { + // horizontal + if (!dx) + return; + + bool swapped = false; + if (x1 > x2) { + swapped = true; + qSwap(x1, x2); + qSwap(y1, y2); + caps = swapCaps(caps); + --x1; --x2; --y1; --y2; + } + int yinc = F16Dot16FixedDiv(y2 - y1, x2 - x1); + int y = y1 << 10; + + capAdjust(caps, x1, x2, y, yinc); + + int x = (x1+32) >> 6; + int xs = (x2+32) >> 6; + + + if (x != xs) { + y += ( ((((x << 6) + 32 - x1))) * yinc ) >> 6; + + // calculate first and last pixel to perform dropout control + QCosmeticStroker::Direction dir = QCosmeticStroker::LeftToRight; + QCosmeticStroker::Point first; + first.x = x; + first.y = y >> 16; + last.x = xs - 1; + last.y = (y + (xs - x - 1)*yinc) >> 16; + if (swapped) { + qSwap(first, last); + dir = QCosmeticStroker::RightToLeft; + } + bool axisAligned = qAbs(yinc) < (1 << 14); + if (stroker->lastPixel.x >= 0) { + if (first.x == stroker->lastPixel.x && first.y == stroker->lastPixel.y) { + // remove duplicated pixel + if (swapped) { + --xs; + } else { + ++x; + y += yinc; + } + } else if (stroker->lastDir != dir && + (((axisAligned && stroker->lastAxisAligned) && + stroker->lastPixel.x != first.x && stroker->lastPixel.y != first.y) || + (qAbs(stroker->lastPixel.x - first.x) > 1 && + qAbs(stroker->lastPixel.y - first.y) > 1))) { + // have a missing pixel, insert it + if (swapped) { + ++xs; + } else { + --x; + y -= yinc; + } + } + } + stroker->lastDir = dir; + stroker->lastAxisAligned = axisAligned; + + Dasher dasher(stroker, swapped, x << 6, xs << 6); + + do { + if (dasher.on()) + drawPixel(stroker, x, y >> 16, 255); + dasher.adjust(); + y += yinc; + } while (++x < xs); + } + } + stroker->lastPixel = last; +} + + +template<DrawPixel drawPixel, class Dasher> +static void drawLineAA(QCosmeticStroker *stroker, qreal rx1, qreal ry1, qreal rx2, qreal ry2, int caps) +{ + if (stroker->clipLine(rx1, ry1, rx2, ry2)) + return; + + int x1 = toF26Dot6(rx1); + int y1 = toF26Dot6(ry1); + int x2 = toF26Dot6(rx2); + int y2 = toF26Dot6(ry2); + + int dx = x2 - x1; + int dy = y2 - y1; + + if (qAbs(dx) < qAbs(dy)) { + // vertical + + int xinc = F16Dot16FixedDiv(dx, dy); + + bool swapped = false; + if (y1 > y2) { + qSwap(y1, y2); + qSwap(x1, x2); + swapped = true; + caps = swapCaps(caps); + } + + int x = (x1 - 32) << 10; + x -= ( ((y1 & 63) - 32) * xinc ) >> 6; + + capAdjust(caps, y1, y2, x, xinc); + + Dasher dasher(stroker, swapped, y1, y2); + + int y = y1 >> 6; + int ys = y2 >> 6; + + int alphaStart, alphaEnd; + if (y == ys) { + alphaStart = y2 - y1; + Q_ASSERT(alphaStart >= 0 && alphaStart < 64); + alphaEnd = 0; + } else { + alphaStart = 64 - (y1 & 63); + alphaEnd = (y2 & 63); + } +// qDebug() << "vertical" << x1/64. << y1/64. << x2/64. << y2/64.; +// qDebug() << " x=" << x << "dx=" << dx << "xi=" << (x>>16) << "xsi=" << ((x+(ys-y)*dx)>>16) << "y=" << y << "ys=" << ys; + + // draw first pixel + if (dasher.on()) { + uint alpha = (quint8)(x >> 8); + drawPixel(stroker, x>>16, y, (255-alpha) * alphaStart >> 6); + drawPixel(stroker, (x>>16) + 1, y, alpha * alphaStart >> 6); + } + dasher.adjust(); + x += xinc; + ++y; + if (y < ys) { + do { + if (dasher.on()) { + uint alpha = (quint8)(x >> 8); + drawPixel(stroker, x>>16, y, (255-alpha)); + drawPixel(stroker, (x>>16) + 1, y, alpha); + } + dasher.adjust(); + x += xinc; + } while (++y < ys); + } + // draw last pixel + if (alphaEnd && dasher.on()) { + uint alpha = (quint8)(x >> 8); + drawPixel(stroker, x>>16, y, (255-alpha) * alphaEnd >> 6); + drawPixel(stroker, (x>>16) + 1, y, alpha * alphaEnd >> 6); + } + } else { + // horizontal + if (!dx) + return; + + int yinc = F16Dot16FixedDiv(dy, dx); + + bool swapped = false; + if (x1 > x2) { + qSwap(x1, x2); + qSwap(y1, y2); + swapped = true; + caps = swapCaps(caps); + } + + int y = (y1 - 32) << 10; + y -= ( ((x1 & 63) - 32) * yinc ) >> 6; + + capAdjust(caps, x1, x2, y, yinc); + + Dasher dasher(stroker, swapped, x1, x2); + + int x = x1 >> 6; + int xs = x2 >> 6; + +// qDebug() << "horizontal" << x1/64. << y1/64. << x2/64. << y2/64.; +// qDebug() << " y=" << y << "dy=" << dy << "x=" << x << "xs=" << xs << "yi=" << (y>>16) << "ysi=" << ((y+(xs-x)*dy)>>16); + int alphaStart, alphaEnd; + if (x == xs) { + alphaStart = x2 - x1; + Q_ASSERT(alphaStart >= 0 && alphaStart < 64); + alphaEnd = 0; + } else { + alphaStart = 64 - (x1 & 63); + alphaEnd = (x2 & 63); + } + + // draw first pixel + if (dasher.on()) { + uint alpha = (quint8)(y >> 8); + drawPixel(stroker, x, y>>16, (255-alpha) * alphaStart >> 6); + drawPixel(stroker, x, (y>>16) + 1, alpha * alphaStart >> 6); + } + dasher.adjust(); + y += yinc; + ++x; + // draw line + if (x < xs) { + do { + if (dasher.on()) { + uint alpha = (quint8)(y >> 8); + drawPixel(stroker, x, y>>16, (255-alpha)); + drawPixel(stroker, x, (y>>16) + 1, alpha); + } + dasher.adjust(); + y += yinc; + } while (++x < xs); + } + // draw last pixel + if (alphaEnd && dasher.on()) { + uint alpha = (quint8)(y >> 8); + drawPixel(stroker, x, y>>16, (255-alpha) * alphaEnd >> 6); + drawPixel(stroker, x, (y>>16) + 1, alpha * alphaEnd >> 6); + } + } +} diff --git a/src/gui/painting/qcosmeticstroker_p.h b/src/gui/painting/qcosmeticstroker_p.h new file mode 100644 index 0000000..bc6dd76 --- /dev/null +++ b/src/gui/painting/qcosmeticstroker_p.h @@ -0,0 +1,101 @@ +#ifndef QCOSMETICSTROKER_P_H +#define QCOSMETICSTROKER_P_H + +#include <private/qdrawhelper_p.h> +#include <private/qvectorpath_p.h> +#include <private/qpaintengine_raster_p.h> +#include <qpen.h> + +class QCosmeticStroker; + + +typedef void (*StrokeLine)(QCosmeticStroker *stroker, qreal x1, qreal y1, qreal x2, qreal y2, int caps); + +class QCosmeticStroker +{ +public: + struct Point { + int x; + int y; + }; + struct PointF { + qreal x; + qreal y; + }; + + enum Caps { + NoCaps = 0, + CapBegin = 0x1, + CapEnd = 0x2, + }; + + // used to avoid drop outs or duplicated points + enum Direction { + TopToBottom, + BottomToTop, + LeftToRight, + RightToLeft + }; + + QCosmeticStroker(QRasterPaintEngineState *s, const QRect &dr) + : state(s), + clip(dr), + pattern(0), + reversePattern(0), + patternSize(0), + patternLength(0), + patternOffset(0), + current_span(0), + lastDir(LeftToRight), + lastAxisAligned(false) + { setup(); } + ~QCosmeticStroker() { free(pattern); free(reversePattern); } + void drawLine(const QPointF &p1, const QPointF &p2); + void drawPath(const QVectorPath &path); + void drawPoints(const QPoint *points, int num); + void drawPoints(const QPointF *points, int num); + + + QRasterPaintEngineState *state; + QRect clip; + // clip bounds in real + qreal xmin, xmax; + qreal ymin, ymax; + + StrokeLine stroke; + bool drawCaps; + + int *pattern; + int *reversePattern; + int patternSize; + int patternLength; + int patternOffset; + + enum { NSPANS = 255 }; + QT_FT_Span spans[NSPANS]; + int current_span; + ProcessSpans blend; + + int opacity; + + uint color; + uint *pixels; + int ppl; + + Direction lastDir; + Point lastPixel; + bool lastAxisAligned; + +private: + void setup(); + + void renderCubic(const QPointF &p1, const QPointF &p2, const QPointF &p3, const QPointF &p4, int caps); + void renderCubicSubdivision(PointF *points, int level, int caps); + // used for closed subpaths + void calculateLastPoint(qreal rx1, qreal ry1, qreal rx2, qreal ry2); + +public: + bool clipLine(qreal &x1, qreal &y1, qreal &x2, qreal &y2); +}; + +#endif // QCOSMETICLINE_H diff --git a/src/gui/painting/qpaintengine_raster.cpp b/src/gui/painting/qpaintengine_raster.cpp index 2119e30..f0bc0d6 100644 --- a/src/gui/painting/qpaintengine_raster.cpp +++ b/src/gui/painting/qpaintengine_raster.cpp @@ -69,6 +69,7 @@ // #include <private/qrasterizer_p.h> #include <private/qimage_p.h> #include <private/qstatictext_p.h> +#include <private/qcosmeticstroker_p.h> #include "qmemrotate_p.h" #include "qpaintengine_raster_p.h" @@ -156,20 +157,6 @@ enum LineDrawMode { LineDrawIncludeLastPixel }; -static void drawLine_midpoint_i(int x1, int y1, int x2, int y2, ProcessSpans span_func, QSpanData *data, - LineDrawMode style, const QIntRect &rect); -static void drawLine_midpoint_dashed_i(int x1, int y1, int x2, int y2, - QPen *pen, ProcessSpans span_func, QSpanData *data, - LineDrawMode style, const QIntRect &devRect, - int *patternOffset); -// static void drawLine_midpoint_f(qreal x1, qreal y1, qreal x2, qreal y2, -// ProcessSpans span_func, QSpanData *data, -// LineDrawMode style, const QRect &devRect); - -static void drawEllipse_midpoint_i(const QRect &rect, const QRect &clip, - ProcessSpans pen_func, ProcessSpans brush_func, - QSpanData *pen_data, QSpanData *brush_data); - struct QRasterFloatPoint { qreal x; qreal y; @@ -789,14 +776,12 @@ void QRasterPaintEngine::updatePen(const QPen &pen) s->stroker = 0; } + ensureState(); // needed because of tx_noshear... s->flags.fast_pen = pen_style > Qt::NoPen - && s->penData.blend - && !s->flags.antialiased - && (penWidth == 0 || (penWidth <= 1 - && (s->matrix.type() <= QTransform::TxTranslate - || pen.isCosmetic()))); + && s->penData.blend + && ((pen.isCosmetic() && penWidth <= 1) + || (s->flags.tx_noshear && penWidth * s->txscale <= 1)); - ensureState(); // needed because of tx_noshear... s->flags.non_complex_pen = qpen_capStyle(s->lastPen) <= Qt::SquareCap && s->flags.tx_noshear; s->strokeFlags = 0; @@ -1513,6 +1498,7 @@ void QRasterPaintEngine::drawRects(const QRect *rects, int rectCount) qDebug(" - QRasterPaintEngine::drawRect(), rectCount=%d", rectCount); #endif Q_D(QRasterPaintEngine); + ensureState(); QRasterPaintEngineState *s = state(); // Fill @@ -1541,32 +1527,14 @@ void QRasterPaintEngine::drawRects(const QRect *rects, int rectCount) ensurePen(); if (s->penData.blend) { - if (s->flags.fast_pen && s->lastPen.brush().isOpaque()) { - const QRect *r = rects; - const QRect *lastRect = rects + rectCount; - while (r < lastRect) { - int left = r->x(); - int right = r->x() + r->width(); - int top = r->y(); - int bottom = r->y() + r->height(); - -#ifdef Q_WS_MAC - int pts[] = { top, left, - top, right, - bottom, right, - bottom, left }; -#else - int pts[] = { left, top, - right, top, - right, bottom, - left, bottom }; -#endif - - strokePolygonCosmetic((QPoint *) pts, 4, WindingMode); - ++r; + QRectVectorPath path; + if (s->flags.fast_pen) { + QCosmeticStroker stroker(s, d->deviceRect); + for (int i = 0; i < rectCount; ++i) { + path.set(rects[i]); + stroker.drawPath(path); } } else { - QRectVectorPath path; for (int i = 0; i < rectCount; ++i) { path.set(rects[i]); stroke(path, s->pen); @@ -1581,13 +1549,13 @@ void QRasterPaintEngine::drawRects(const QRect *rects, int rectCount) void QRasterPaintEngine::drawRects(const QRectF *rects, int rectCount) { #ifdef QT_DEBUG_DRAW - qDebug(" - QRasterPaintEngine::drawRect(), rectCount=%d", rectCount); + qDebug(" - QRasterPaintEngine::drawRect(QRectF*), rectCount=%d", rectCount); #endif #ifdef QT_FAST_SPANS Q_D(QRasterPaintEngine); + ensureState(); QRasterPaintEngineState *s = state(); - ensureState(); if (s->flags.tx_noshear) { ensureBrush(); @@ -1605,59 +1573,17 @@ void QRasterPaintEngine::drawRects(const QRectF *rects, int rectCount) ensurePen(); if (s->penData.blend) { - qreal width = s->pen.isCosmetic() - ? (s->lastPen.widthF() == 0 ? 1 : s->lastPen.widthF()) - : s->lastPen.widthF() * s->txscale; - - if (s->flags.fast_pen && s->lastPen.brush().isOpaque()) { - for (int i = 0; i < rectCount; ++i) { - const QRectF &r = rects[i]; - qreal left = r.x(); - qreal right = r.x() + r.width(); - qreal top = r.y(); - qreal bottom = r.y() + r.height(); - qreal pts[] = { left, top, - right, top, - right, bottom, - left, bottom }; - strokePolygonCosmetic((QPointF *) pts, 4, WindingMode); - } - } else if (width <= 1 && qpen_style(s->lastPen) == Qt::SolidLine) { - d->initializeRasterizer(&s->penData); - + QRectVectorPath path; + if (s->flags.fast_pen) { + QCosmeticStroker stroker(s, d->deviceRect); for (int i = 0; i < rectCount; ++i) { - const QRectF &rect = rects[i].normalized(); - if (rect.isEmpty()) { - qreal pts[] = { rect.left(), rect.top(), rect.right(), rect.bottom() }; - QVectorPath vp(pts, 2, 0, QVectorPath::LinesHint); - QPaintEngineEx::stroke(vp, s->lastPen); - } else { - const QPointF tl = s->matrix.map(rect.topLeft()); - const QPointF tr = s->matrix.map(rect.topRight()); - const QPointF bl = s->matrix.map(rect.bottomLeft()); - const QPointF br = s->matrix.map(rect.bottomRight()); - const qreal w = width / (rect.width() * s->txscale); - const qreal h = width / (rect.height() * s->txscale); - d->rasterizer->rasterizeLine(tl, tr, w); // top - d->rasterizer->rasterizeLine(bl, br, w); // bottom - d->rasterizer->rasterizeLine(bl, tl, h); // left - d->rasterizer->rasterizeLine(br, tr, h); // right - } + path.set(rects[i]); + stroker.drawPath(path); } } else { for (int i = 0; i < rectCount; ++i) { - const QRectF &r = rects[i]; - qreal left = r.x(); - qreal right = r.x() + r.width(); - qreal top = r.y(); - qreal bottom = r.y() + r.height(); - qreal pts[] = { left, top, - right, top, - right, bottom, - left, bottom, - left, top }; - QVectorPath vp(pts, 5, 0, QVectorPath::RectangleHint); - QPaintEngineEx::stroke(vp, s->lastPen); + path.set(rects[i]); + QPaintEngineEx::stroke(path, s->lastPen); } } } @@ -1674,36 +1600,16 @@ void QRasterPaintEngine::drawRects(const QRectF *rects, int rectCount) */ void QRasterPaintEngine::stroke(const QVectorPath &path, const QPen &pen) { + Q_D(QRasterPaintEngine); QRasterPaintEngineState *s = state(); + ensurePen(pen); if (!s->penData.blend) return; - if (s->flags.fast_pen && !path.isCurved() - && s->lastPen.brush().isOpaque()) { - int count = path.elementCount(); - QPointF *points = (QPointF *) path.points(); - const QPainterPath::ElementType *types = path.elements(); - if (types) { - int first = 0; - int last; - while (first < count) { - while (first < count && types[first] != QPainterPath::MoveToElement) ++first; - last = first + 1; - while (last < count && types[last] == QPainterPath::LineToElement) ++last; - strokePolygonCosmetic(points + first, last - first, - path.hasImplicitClose() && last == count // only close last one.. - ? WindingMode - : PolylineMode); - first = last; - } - } else { - strokePolygonCosmetic(points, count, - path.hasImplicitClose() - ? WindingMode - : PolylineMode); - } - + if (s->flags.fast_pen) { + QCosmeticStroker stroker(s, d->deviceRect); + stroker.drawPath(path); } else if (s->flags.non_complex_pen && path.shape() == QVectorPath::LinesHint) { qreal width = s->lastPen.isCosmetic() ? (qpen_widthf(s->lastPen) == 0 ? 1 : qpen_widthf(s->lastPen)) @@ -1818,26 +1724,6 @@ void QRasterPaintEngine::fill(const QVectorPath &path, const QBrush &brush) } } - if (path.shape() == QVectorPath::EllipseHint) { - if (!s->flags.antialiased && s->matrix.type() <= QTransform::TxScale) { - const qreal *p = path.points(); - QPointF tl = QPointF(p[0], p[1]) * s->matrix; - QPointF br = QPointF(p[4], p[5]) * s->matrix; - QRectF r = s->matrix.mapRect(QRectF(tl, br)); - - ProcessSpans penBlend = d->getPenFunc(r, &s->penData); - ProcessSpans brushBlend = d->getBrushFunc(r, &s->brushData); - const QRect brect = QRect(int(r.x()), int(r.y()), - int_dim(r.x(), r.width()), - int_dim(r.y(), r.height())); - if (brect == r) { - drawEllipse_midpoint_i(brect, d->deviceRect, penBlend, brushBlend, - &s->penData, &s->brushData); - return; - } - } - } - // ### Optimize for non transformed ellipses and rectangles... QRectF cpRect = path.controlPointRect(); const QRect deviceRect = s->matrix.mapRect(cpRect).toRect(); @@ -2032,6 +1918,7 @@ void QRasterPaintEngine::fillPolygon(const QPointF *points, int pointCount, Poly */ void QRasterPaintEngine::drawPolygon(const QPointF *points, int pointCount, PolygonDrawMode mode) { + Q_D(QRasterPaintEngine); QRasterPaintEngineState *s = state(); #ifdef QT_DEBUG_DRAW @@ -2048,9 +1935,9 @@ void QRasterPaintEngine::drawPolygon(const QPointF *points, int pointCount, Poly } ensurePen(); - ensureBrush(); if (mode != PolylineMode) { // Do the fill... + ensureBrush(); if (s->brushData.blend) { fillPolygon(points, pointCount, mode); } @@ -2058,10 +1945,11 @@ void QRasterPaintEngine::drawPolygon(const QPointF *points, int pointCount, Poly // Do the outline... if (s->penData.blend) { - if (s->flags.fast_pen && s->lastPen.brush().isOpaque()) - strokePolygonCosmetic(points, pointCount, mode); - else { - QVectorPath vp((qreal *) points, pointCount, 0, QVectorPath::polygonFlags(mode)); + QVectorPath vp((qreal *) points, pointCount, 0, QVectorPath::polygonFlags(mode)); + if (s->flags.fast_pen) { + QCosmeticStroker stroker(s, d->deviceRect); + stroker.drawPath(vp); + } else { QPaintEngineEx::stroke(vp, s->lastPen); } } @@ -2090,13 +1978,7 @@ void QRasterPaintEngine::drawPolygon(const QPoint *points, int pointCount, Polyg return; } - ensureState(); ensurePen(); - if (!(s->flags.int_xform && s->flags.fast_pen && (!s->penData.blend || s->pen.brush().isOpaque()))) { - // this calls the float version - QPaintEngineEx::drawPolygon(points, pointCount, mode); - return; - } // Do the fill if (mode != PolylineMode) { @@ -2122,230 +2004,24 @@ void QRasterPaintEngine::drawPolygon(const QPoint *points, int pointCount, Polyg // Do the outline... if (s->penData.blend) { - if (s->flags.fast_pen && s->lastPen.brush().isOpaque()) - strokePolygonCosmetic(points, pointCount, mode); - else { - int count = pointCount * 2; - QVarLengthArray<qreal> fpoints(count); -#ifdef Q_WS_MAC - for (int i=0; i<count; i+=2) { - fpoints[i] = ((int *) points)[i+1]; - fpoints[i+1] = ((int *) points)[i]; - } -#else - for (int i=0; i<count; ++i) - fpoints[i] = ((int *) points)[i]; -#endif - QVectorPath vp((qreal *) fpoints.data(), pointCount, 0, QVectorPath::polygonFlags(mode)); - QPaintEngineEx::stroke(vp, s->lastPen); - } - } -} - -/*! - \internal -*/ -void QRasterPaintEngine::strokePolygonCosmetic(const QPointF *points, int pointCount, PolygonDrawMode mode) -{ - Q_D(QRasterPaintEngine); - QRasterPaintEngineState *s = state(); - - Q_ASSERT(s->penData.blend); - Q_ASSERT(s->flags.fast_pen); - - bool needs_closing = mode != PolylineMode && points[0] != points[pointCount-1]; - - // Use fast path for 0 width / trivial pens. - QIntRect devRect; - devRect.set(d->deviceRect); - - LineDrawMode mode_for_last = (s->lastPen.capStyle() != Qt::FlatCap - ? LineDrawIncludeLastPixel - : LineDrawNormal); - int dashOffset = int(s->lastPen.dashOffset()); - - // Draw all the line segments. - for (int i=1; i<pointCount; ++i) { - - QPointF lp1 = points[i-1] * s->matrix; - QPointF lp2 = points[i] * s->matrix; - - const QRectF brect(lp1, lp2); - ProcessSpans penBlend = d->getPenFunc(brect, &s->penData); - if (qpen_style(s->lastPen) == Qt::SolidLine) { - drawLine_midpoint_i(qFloor(lp1.x()), qFloor(lp1.y()), - qFloor(lp2.x()), qFloor(lp2.y()), - penBlend, &s->penData, - i == pointCount - 1 ? mode_for_last : LineDrawIncludeLastPixel, - devRect); - } else { - drawLine_midpoint_dashed_i(qFloor(lp1.x()), qFloor(lp1.y()), - qFloor(lp2.x()), qFloor(lp2.y()), - &s->lastPen, - penBlend, &s->penData, - i == pointCount - 1 ? mode_for_last : LineDrawIncludeLastPixel, - devRect, &dashOffset); + int count = pointCount * 2; + QVarLengthArray<qreal> fpoints(count); + #ifdef Q_WS_MAC + for (int i=0; i<count; i+=2) { + fpoints[i] = ((int *) points)[i+1]; + fpoints[i+1] = ((int *) points)[i]; } - } - - // Polygons are implicitly closed. - if (needs_closing) { - QPointF lp1 = points[pointCount-1] * s->matrix; - QPointF lp2 = points[0] * s->matrix; - - const QRectF brect(lp1, lp2); - ProcessSpans penBlend = d->getPenFunc(brect, &s->penData); - if (qpen_style(s->lastPen) == Qt::SolidLine) { - drawLine_midpoint_i(qFloor(lp1.x()), qFloor(lp1.y()), - qFloor(lp2.x()), qFloor(lp2.y()), - penBlend, &s->penData, - LineDrawIncludeLastPixel, - devRect); + #else + for (int i=0; i<count; ++i) + fpoints[i] = ((int *) points)[i]; + #endif + QVectorPath vp((qreal *) fpoints.data(), pointCount, 0, QVectorPath::polygonFlags(mode)); + + if (s->flags.fast_pen) { + QCosmeticStroker stroker(s, d->deviceRect); + stroker.drawPath(vp); } else { - drawLine_midpoint_dashed_i(qFloor(lp1.x()), qFloor(lp1.y()), - qFloor(lp2.x()), qFloor(lp2.y()), - &s->lastPen, - penBlend, &s->penData, - LineDrawIncludeLastPixel, - devRect, &dashOffset); - } - } - -} - -/*! - \internal -*/ -void QRasterPaintEngine::strokePolygonCosmetic(const QPoint *points, int pointCount, PolygonDrawMode mode) -{ - Q_D(QRasterPaintEngine); - QRasterPaintEngineState *s = state(); - - // We assert here because this function is called from drawRects - // and drawPolygon and they already do ensurePen(), so we skip that - // here to avoid duplicate checks.. - Q_ASSERT(s->penData.blend); - - bool needs_closing = mode != PolylineMode && points[0] != points[pointCount-1]; - - QIntRect devRect; - devRect.set(d->deviceRect); - - LineDrawMode mode_for_last = (s->lastPen.capStyle() != Qt::FlatCap - ? LineDrawIncludeLastPixel - : LineDrawNormal); - - int m11 = int(s->matrix.m11()); - int m22 = int(s->matrix.m22()); - int dx = int(s->matrix.dx()); - int dy = int(s->matrix.dy()); - int m13 = int(s->matrix.m13()); - int m23 = int(s->matrix.m23()); - bool affine = !m13 && !m23; - - int dashOffset = int(s->lastPen.dashOffset()); - - if (affine) { - // Draw all the line segments. - for (int i=1; i<pointCount; ++i) { - const QPoint lp1 = points[i-1] * s->matrix; - const QPoint lp2 = points[i] * s->matrix; - const QRect brect(lp1, lp2); - ProcessSpans penBlend = d->getPenFunc(brect, &s->penData); - - if (qpen_style(s->lastPen) == Qt::SolidLine) - drawLine_midpoint_i(lp1.x(), lp1.y(), - lp2.x(), lp2.y(), - penBlend, &s->penData, - i == pointCount - 1 ? mode_for_last : LineDrawIncludeLastPixel, - devRect); - else - drawLine_midpoint_dashed_i(lp1.x(), lp1.y(), - lp2.x(), lp2.y(), - &s->lastPen, - penBlend, &s->penData, - i == pointCount - 1 ? mode_for_last : LineDrawIncludeLastPixel, - devRect, &dashOffset); - - } - - // Polygons are implicitly closed. - if (needs_closing) { - const QPoint lp1 = points[pointCount - 1] * s->matrix; - const QPoint lp2 = points[0] * s->matrix; - const QRect brect(lp1, lp2); - ProcessSpans penBlend = d->getPenFunc(brect, &s->penData); - - if (qpen_style(s->lastPen) == Qt::SolidLine) - drawLine_midpoint_i(lp1.x(), lp1.y(), - lp2.x(), lp2.y(), - penBlend, &s->penData, LineDrawIncludeLastPixel, - devRect); - else - drawLine_midpoint_dashed_i(lp1.x(), lp1.y(), - lp2.x(), lp2.y(), - &s->lastPen, - penBlend, &s->penData, LineDrawIncludeLastPixel, - devRect, &dashOffset); - } - } else { - // Draw all the line segments. - for (int i=1; i<pointCount; ++i) { - int x1 = points[i-1].x() * m11 + dx; - int y1 = points[i-1].y() * m22 + dy; - qreal w = m13*points[i-1].x() + m23*points[i-1].y() + 1.; - w = 1/w; - x1 = int(x1*w); - y1 = int(y1*w); - int x2 = points[i].x() * m11 + dx; - int y2 = points[i].y() * m22 + dy; - w = m13*points[i].x() + m23*points[i].y() + 1.; - w = 1/w; - x2 = int(x2*w); - y2 = int(y2*w); - - const QRect brect(x1, y1, x2 - x1 + 1, y2 - y1 + 1); - ProcessSpans penBlend = d->getPenFunc(brect, &s->penData); - if (qpen_style(s->lastPen) == Qt::SolidLine) - drawLine_midpoint_i(x1, y1, x2, y2, - penBlend, &s->penData, - i == pointCount - 1 ? mode_for_last : LineDrawIncludeLastPixel, - devRect); - else - drawLine_midpoint_dashed_i(x1, y1, x2, y2, - &s->lastPen, - penBlend, &s->penData, - i == pointCount - 1 ? mode_for_last : LineDrawIncludeLastPixel, - devRect, &dashOffset); - - } - - int x1 = points[pointCount-1].x() * m11 + dx; - int y1 = points[pointCount-1].y() * m22 + dy; - qreal w = m13*points[pointCount-1].x() + m23*points[pointCount-1].y() + 1.; - w = 1/w; - x1 = int(x1*w); - y1 = int(y1*w); - int x2 = points[0].x() * m11 + dx; - int y2 = points[0].y() * m22 + dy; - w = m13*points[0].x() + m23*points[0].y() + 1.; - w = 1/w; - x2 = int(x2 * w); - y2 = int(y2 * w); - // Polygons are implicitly closed. - - if (needs_closing) { - const QRect brect(x1, y1, x2 - x1 + 1, y2 - y1 + 1); - ProcessSpans penBlend = d->getPenFunc(brect, &s->penData); - if (qpen_style(s->lastPen) == Qt::SolidLine) - drawLine_midpoint_i(x1, y1, x2, y2, - penBlend, &s->penData, LineDrawIncludeLastPixel, - devRect); - else - drawLine_midpoint_dashed_i(x1, y1, x2, y2, - &s->lastPen, - penBlend, &s->penData, LineDrawIncludeLastPixel, - devRect, &dashOffset); + QPaintEngineEx::stroke(vp, s->lastPen); } } } @@ -3345,32 +3021,6 @@ QRasterPaintEnginePrivate::getBrushFunc(const QRectF &rect, return isUnclipped(rect, 0) ? data->unclipped_blend : data->blend; } -inline ProcessSpans -QRasterPaintEnginePrivate::getPenFunc(const QRect &rect, - const QSpanData *data) const -{ - Q_Q(const QRasterPaintEngine); - const QRasterPaintEngineState *s = q->state(); - - if (!s->flags.fast_pen && s->matrix.type() > QTransform::TxTranslate) - return data->blend; - const int penWidth = s->flags.fast_pen ? 1 : qCeil(s->pen.widthF()); - return isUnclipped(rect, penWidth) ? data->unclipped_blend : data->blend; -} - -inline ProcessSpans -QRasterPaintEnginePrivate::getPenFunc(const QRectF &rect, - const QSpanData *data) const -{ - Q_Q(const QRasterPaintEngine); - const QRasterPaintEngineState *s = q->state(); - - if (!s->flags.fast_pen && s->matrix.type() > QTransform::TxTranslate) - return data->blend; - const int penWidth = s->flags.fast_pen ? 1 : qCeil(s->lastPen.widthF()); - return isUnclipped(rect, penWidth) ? data->unclipped_blend : data->blend; -} - /*! \reimp */ @@ -3544,48 +3194,16 @@ void QRasterPaintEngine::drawPoints(const QPointF *points, int pointCount) QRasterPaintEngineState *s = state(); ensurePen(); - qreal pw = s->lastPen.widthF(); - if (!s->flags.fast_pen && (s->matrix.type() > QTransform::TxTranslate || pw > 1)) { - QPaintEngineEx::drawPoints(points, pointCount); - - } else { - if (!s->penData.blend) - return; - - QVarLengthArray<QT_FT_Span, 4096> array(pointCount); - QT_FT_Span span = { 0, 1, 0, 255 }; - const QPointF *end = points + pointCount; - qreal trans_x, trans_y; - int x, y; - int left = d->deviceRect.x(); - int right = left + d->deviceRect.width(); - int top = d->deviceRect.y(); - int bottom = top + d->deviceRect.height(); - int count = 0; - while (points < end) { - s->matrix.map(points->x(), points->y(), &trans_x, &trans_y); - x = qFloor(trans_x); - y = qFloor(trans_y); - if (x >= left && x < right && y >= top && y < bottom) { - if (count > 0) { - const QT_FT_Span &last = array[count - 1]; - // spans must be sorted on y (primary) and x (secondary) - if (y < last.y || (y == last.y && x < last.x)) { - s->penData.blend(count, array.constData(), &s->penData); - count = 0; - } - } - - span.x = x; - span.y = y; - array[count++] = span; - } - ++points; - } + if (!s->penData.blend) + return; - if (count > 0) - s->penData.blend(count, array.constData(), &s->penData); + if (!s->flags.fast_pen) { + QPaintEngineEx::drawPoints(points, pointCount); + return; } + + QCosmeticStroker stroker(s, d->deviceRect); + stroker.drawPoints(points, pointCount); } @@ -3595,48 +3213,16 @@ void QRasterPaintEngine::drawPoints(const QPoint *points, int pointCount) QRasterPaintEngineState *s = state(); ensurePen(); - double pw = s->lastPen.widthF(); - if (!s->flags.fast_pen && (s->matrix.type() > QTransform::TxTranslate || pw > 1)) { - QPaintEngineEx::drawPoints(points, pointCount); - - } else { - if (!s->penData.blend) - return; - - QVarLengthArray<QT_FT_Span, 4096> array(pointCount); - QT_FT_Span span = { 0, 1, 0, 255 }; - const QPoint *end = points + pointCount; - qreal trans_x, trans_y; - int x, y; - int left = d->deviceRect.x(); - int right = left + d->deviceRect.width(); - int top = d->deviceRect.y(); - int bottom = top + d->deviceRect.height(); - int count = 0; - while (points < end) { - s->matrix.map(points->x(), points->y(), &trans_x, &trans_y); - x = qFloor(trans_x); - y = qFloor(trans_y); - if (x >= left && x < right && y >= top && y < bottom) { - if (count > 0) { - const QT_FT_Span &last = array[count - 1]; - // spans must be sorted on y (primary) and x (secondary) - if (y < last.y || (y == last.y && x < last.x)) { - s->penData.blend(count, array.constData(), &s->penData); - count = 0; - } - } - - span.x = x; - span.y = y; - array[count++] = span; - } - ++points; - } + if (!s->penData.blend) + return; - if (count > 0) - s->penData.blend(count, array.constData(), &s->penData); + if (!s->flags.fast_pen) { + QPaintEngineEx::drawPoints(points, pointCount); + return; } + + QCosmeticStroker stroker(s, d->deviceRect); + stroker.drawPoints(points, pointCount); } /*! @@ -3645,59 +3231,22 @@ void QRasterPaintEngine::drawPoints(const QPoint *points, int pointCount) void QRasterPaintEngine::drawLines(const QLine *lines, int lineCount) { #ifdef QT_DEBUG_DRAW - qDebug() << " - QRasterPaintEngine::drawLine()"; + qDebug() << " - QRasterPaintEngine::drawLines(QLine*)" << lineCount; #endif Q_D(QRasterPaintEngine); QRasterPaintEngineState *s = state(); ensurePen(); + if (!s->penData.blend) + return; + if (s->flags.fast_pen) { - QIntRect bounds; bounds.set(d->deviceRect); - LineDrawMode mode = s->lastPen.capStyle() == Qt::FlatCap - ? LineDrawNormal - : LineDrawIncludeLastPixel; - - int m11 = int(s->matrix.m11()); - int m22 = int(s->matrix.m22()); - int dx = qFloor(s->matrix.dx()); - int dy = qFloor(s->matrix.dy()); + QCosmeticStroker stroker(s, d->deviceRect); for (int i=0; i<lineCount; ++i) { - int dashOffset = int(s->lastPen.dashOffset()); - if (s->flags.int_xform) { - const QLine &l = lines[i]; - int x1 = l.x1() * m11 + dx; - int y1 = l.y1() * m22 + dy; - int x2 = l.x2() * m11 + dx; - int y2 = l.y2() * m22 + dy; - - const QRect brect(QPoint(x1, y1), QPoint(x2, y2)); - ProcessSpans penBlend = d->getPenFunc(brect, &s->penData); - if (qpen_style(s->lastPen) == Qt::SolidLine) - drawLine_midpoint_i(x1, y1, x2, y2, - penBlend, &s->penData, mode, bounds); - else - drawLine_midpoint_dashed_i(x1, y1, x2, y2, - &s->lastPen, penBlend, - &s->penData, mode, bounds, - &dashOffset); - } else { - QLineF line = lines[i] * s->matrix; - const QRectF brect(QPointF(line.x1(), line.y1()), - QPointF(line.x2(), line.y2())); - ProcessSpans penBlend = d->getPenFunc(brect, &s->penData); - if (qpen_style(s->lastPen) == Qt::SolidLine) - drawLine_midpoint_i(int(line.x1()), int(line.y1()), - int(line.x2()), int(line.y2()), - penBlend, &s->penData, mode, bounds); - else - drawLine_midpoint_dashed_i(int(line.x1()), int(line.y1()), - int(line.x2()), int(line.y2()), - &s->lastPen, penBlend, - &s->penData, mode, bounds, - &dashOffset); - } + const QLine &l = lines[i]; + stroker.drawLine(l.p1(), l.p2()); } - } else if (s->penData.blend) { + } else { QPaintEngineEx::drawLines(lines, lineCount); } } @@ -3754,7 +3303,7 @@ void QRasterPaintEnginePrivate::rasterizeLine_dashed(QLineF line, void QRasterPaintEngine::drawLines(const QLineF *lines, int lineCount) { #ifdef QT_DEBUG_DRAW - qDebug() << " - QRasterPaintEngine::drawLine()"; + qDebug() << " - QRasterPaintEngine::drawLines(QLineF *)" << lineCount; #endif Q_D(QRasterPaintEngine); QRasterPaintEngineState *s = state(); @@ -3763,28 +3312,10 @@ void QRasterPaintEngine::drawLines(const QLineF *lines, int lineCount) if (!s->penData.blend) return; if (s->flags.fast_pen) { - QIntRect bounds; - bounds.set(d->deviceRect); - LineDrawMode mode = s->lastPen.capStyle() == Qt::FlatCap - ? LineDrawNormal - : LineDrawIncludeLastPixel; - + QCosmeticStroker stroker(s, d->deviceRect); for (int i=0; i<lineCount; ++i) { - int dashOffset = int(s->lastPen.dashOffset()); - QLineF line = lines[i] * s->matrix; - const QRectF brect(QPointF(line.x1(), line.y1()), - QPointF(line.x2(), line.y2())); - ProcessSpans penBlend = d->getPenFunc(brect, &s->penData); - if (qpen_style(s->lastPen) == Qt::SolidLine) - drawLine_midpoint_i(int(line.x1()), int(line.y1()), - int(line.x2()), int(line.y2()), - penBlend, &s->penData, mode, bounds); - else - drawLine_midpoint_dashed_i(int(line.x1()), int(line.y1()), - int(line.x2()), int(line.y2()), - &s->lastPen, - penBlend, &s->penData, mode, - bounds, &dashOffset); + QLineF line = lines[i]; + stroker.drawLine(line.p1(), line.p2()); } } else { QPaintEngineEx::drawLines(lines, lineCount); @@ -3797,29 +3328,6 @@ void QRasterPaintEngine::drawLines(const QLineF *lines, int lineCount) */ void QRasterPaintEngine::drawEllipse(const QRectF &rect) { - Q_D(QRasterPaintEngine); - QRasterPaintEngineState *s = state(); - - ensurePen(); - if (((qpen_style(s->lastPen) == Qt::SolidLine && s->flags.fast_pen) - || (qpen_style(s->lastPen) == Qt::NoPen && !s->flags.antialiased)) - && qMax(rect.width(), rect.height()) < QT_RASTER_COORD_LIMIT - && !rect.isEmpty() - && s->matrix.type() <= QTransform::TxScale) // no shear - { - ensureBrush(); - const QRectF r = s->matrix.mapRect(rect); - ProcessSpans penBlend = d->getPenFunc(r, &s->penData); - ProcessSpans brushBlend = d->getBrushFunc(r, &s->brushData); - const QRect brect = QRect(int(r.x()), int(r.y()), - int_dim(r.x(), r.width()), - int_dim(r.y(), r.height())); - if (brect == r) { - drawEllipse_midpoint_i(brect, d->deviceRect, penBlend, brushBlend, - &s->penData, &s->brushData); - return; - } - } QPaintEngineEx::drawEllipse(rect); } @@ -4821,7 +4329,7 @@ static void qt_span_fill_clipped(int spanCount, const QSpan *spans, void *userDa while (spans < end) { QSpan *clipped = cspans; spans = qt_intersect_spans(fillData->clip, ¤tClip, spans, end, &clipped, NSPANS); -// qDebug() << "processed " << processed << "clipped" << clipped-cspans +// qDebug() << "processed " << spanCount - (end - spans) << "clipped" << clipped-cspans // << "span:" << cspans->x << cspans->y << cspans->len << spans->coverage; if (clipped - cspans) @@ -5473,878 +4981,6 @@ void QSpanData::initTexture(const QImage *image, int alpha, QTextureData::Type _ adjustSpanMethods(); } -#ifdef Q_WS_WIN - - -#endif - - -/*! - \internal - - Draws a line using the floating point midpoint algorithm. The line - \a line is already in device coords at this point. -*/ - -static void drawLine_midpoint_i(int x1, int y1, int x2, int y2, ProcessSpans span_func, QSpanData *data, - LineDrawMode style, const QIntRect &devRect) -{ -#ifdef QT_DEBUG_DRAW - qDebug() << " - drawLine_midpoint_i" << QLine(QPoint(x1, y1), QPoint(x2, y2)); -#endif - - int x, y; - int dx, dy, d, incrE, incrNE; - - dx = x2 - x1; - dy = y2 - y1; - - const int NSPANS = 256; - QT_FT_Span spans[NSPANS]; - int current = 0; - bool ordered = true; - - if (dy == 0) { - // specialcase horizontal lines - if (y1 >= devRect.y1 && y1 < devRect.y2) { - int start = qMax(devRect.x1, qMin(x1, x2)); - int stop = qMax(x1, x2) + 1; - int stop_clipped = qMin(devRect.x2, stop); - int len = stop_clipped - start; - if (style == LineDrawNormal && stop == stop_clipped) - len--; - if (len > 0) { - spans[0].x = ushort(start); - spans[0].len = ushort(len); - spans[0].y = y1; - spans[0].coverage = 255; - span_func(1, spans, data); - } - } - return; - } else if (dx == 0) { - // specialcase vertical lines - if (x1 >= devRect.x1 && x1 < devRect.x2) { - int start = qMax(devRect.y1, qMin(y1, y2)); - int stop = qMax(y1, y2) + 1; - int stop_clipped = qMin(devRect.y2, stop); - int len = stop_clipped - start; - if (style == LineDrawNormal && stop == stop_clipped) - len--; - // hw: create spans directly instead to possibly avoid clipping - if (len > 0) - fillRect_normalized(QRect(x1, start, 1, len).normalized(), data, 0); - } - return; - } - - - if (qAbs(dx) >= qAbs(dy)) { /* if x is the major axis: */ - - if (x2 < x1) { /* if coordinates are out of order */ - qt_swap_int(x1, x2); - dx = -dx; - - qt_swap_int(y1, y2); - dy = -dy; - } - - int x_lower_limit = - 128; - if (x1 < x_lower_limit) { - int cy = dy * (x_lower_limit - x1) / dx + y1; - drawLine_midpoint_i(x_lower_limit, cy, x2, y2, span_func, data, style, devRect); - return; - } - - if (style == LineDrawNormal) - --x2; - - // In the loops below we increment before call the span function so - // we need to stop one pixel before - x2 = qMin(x2, devRect.x2 - 1); - - // completely clipped, so abort - if (x2 <= x1) { - return; - } - - int x = x1; - int y = y1; - - if (y2 <= y1) - ordered = false; - - { - const int index = (ordered ? current : NSPANS - 1 - current); - spans[index].coverage = 255; - spans[index].x = x; - spans[index].y = y; - - if (x >= devRect.x1 && y >= devRect.y1 && y < devRect.y2) - spans[index].len = 1; - else - spans[index].len = 0; - } - - if (y2 > y1) { // 315 -> 360 and 135 -> 180 (unit circle degrees) - y2 = qMin(y2, devRect.y2 - 1); - - incrE = dy * 2; - d = incrE - dx; - incrNE = (dy - dx) * 2; - - if (y > y2) - goto flush_and_return; - - while (x < x2) { - ++x; - if (d > 0) { - if (spans[current].len > 0) - ++current; - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - - ++y; - d += incrNE; - if (y > y2) - goto flush_and_return; - - spans[current].len = 0; - spans[current].coverage = 255; - spans[current].x = x; - spans[current].y = y; - } else { - d += incrE; - if (x == devRect.x1) - spans[current].x = devRect.x1; - } - - if (x < devRect.x1 || y < devRect.y1) - continue; - - Q_ASSERT(x<devRect.x2); - Q_ASSERT(y<devRect.y2); - Q_ASSERT(spans[current].y == y); - spans[current].len++; - } - if (spans[current].len > 0) { - ++current; - } - } else { // 0-45 and 180->225 (unit circle degrees) - - y1 = qMin(y1, devRect.y2 - 1); - - incrE = dy * 2; - d = incrE + dx; - incrNE = (dy + dx) * 2; - - if (y < devRect.y1) - goto flush_and_return; - - while (x < x2) { - ++x; - if (d < 0) { - if (spans[NSPANS - 1 - current].len > 0) - ++current; - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - - --y; - d += incrNE; - if (y < devRect.y1) - goto flush_and_return; - - const int index = NSPANS - 1 - current; - spans[index].len = 0; - spans[index].coverage = 255; - spans[index].x = x; - spans[index].y = y; - } else { - d += incrE; - if (x == devRect.x1) - spans[NSPANS - 1 - current].x = devRect.x1; - } - - if (x < devRect.x1 || y > y1) - continue; - - Q_ASSERT(x<devRect.x2 && y<devRect.y2); - Q_ASSERT(spans[NSPANS - 1 - current].y == y); - spans[NSPANS - 1 - current].len++; - } - if (spans[NSPANS - 1 - current].len > 0) { - ++current; - } - } - - } else { - - // if y is the major axis: - - if (y2 < y1) { /* if coordinates are out of order */ - qt_swap_int(y1, y2); - dy = -dy; - - qt_swap_int(x1, x2); - dx = -dx; - } - - int y_lower_limit = - 128; - if (y1 < y_lower_limit) { - int cx = dx * (y_lower_limit - y1) / dy + x1; - drawLine_midpoint_i(cx, y_lower_limit, x2, y2, span_func, data, style, devRect); - return; - } - - if (style == LineDrawNormal) - --y2; - - // In the loops below we increment before call the span function so - // we need to stop one pixel before - y2 = qMin(y2, devRect.y2 - 1); - - // completely clipped, so abort - if (y2 <= y1) { - return; - } - - x = x1; - y = y1; - - if (x>=devRect.x1 && y>=devRect.y1 && x < devRect.x2) { - Q_ASSERT(x >= devRect.x1 && y >= devRect.y1 && x < devRect.x2 && y < devRect.y2); - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - spans[current].len = 1; - spans[current].coverage = 255; - spans[current].x = x; - spans[current].y = y; - ++current; - } - - if (x2 > x1) { // 90 -> 135 and 270 -> 315 (unit circle degrees) - x2 = qMin(x2, devRect.x2 - 1); - incrE = dx * 2; - d = incrE - dy; - incrNE = (dx - dy) * 2; - - if (x > x2) - goto flush_and_return; - - while (y < y2) { - if (d > 0) { - ++x; - d += incrNE; - if (x > x2) - goto flush_and_return; - } else { - d += incrE; - } - ++y; - if (x < devRect.x1 || y < devRect.y1) - continue; - Q_ASSERT(x<devRect.x2 && y<devRect.y2); - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - spans[current].len = 1; - spans[current].coverage = 255; - spans[current].x = x; - spans[current].y = y; - ++current; - } - } else { // 45 -> 90 and 225 -> 270 (unit circle degrees) - x1 = qMin(x1, devRect.x2 - 1); - incrE = dx * 2; - d = incrE + dy; - incrNE = (dx + dy) * 2; - - if (x < devRect.x1) - goto flush_and_return; - - while (y < y2) { - if (d < 0) { - --x; - d += incrNE; - if (x < devRect.x1) - goto flush_and_return; - } else { - d += incrE; - } - ++y; - if (y < devRect.y1 || x > x1) - continue; - Q_ASSERT(x>=devRect.x1 && x<devRect.x2 && y>=devRect.y1 && y<devRect.y2); - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - spans[current].len = 1; - spans[current].coverage = 255; - spans[current].x = x; - spans[current].y = y; - ++current; - } - } - } -flush_and_return: - if (current > 0) - span_func(current, ordered ? spans : spans + (NSPANS - current), data); -} - -static void offset_pattern(int offset, bool *inDash, int *dashIndex, int *currentOffset, const QVarLengthArray<qreal> &pattern) -{ - while (offset--) { - if (--*currentOffset == 0) { - *inDash = !*inDash; - *dashIndex = ((*dashIndex + 1) % pattern.size()); - *currentOffset = int(pattern[*dashIndex]); - } - } -} - -static void drawLine_midpoint_dashed_i(int x1, int y1, int x2, int y2, - QPen *pen, - ProcessSpans span_func, QSpanData *data, - LineDrawMode style, const QIntRect &devRect, - int *patternOffset) -{ -#ifdef QT_DEBUG_DRAW - qDebug() << " - drawLine_midpoint_dashed_i" << x1 << y1 << x2 << y2 << *patternOffset; -#endif - - int x, y; - int dx, dy, d, incrE, incrNE; - - dx = x2 - x1; - dy = y2 - y1; - - Q_ASSERT(*patternOffset >= 0); - - const QVector<qreal> penPattern = pen->dashPattern(); - QVarLengthArray<qreal> pattern(penPattern.size()); - - int patternLength = 0; - for (int i = 0; i < penPattern.size(); ++i) - patternLength += qMax<qreal>(1.0, (penPattern.at(i))); - - // pattern must be reversed if coordinates are out of order - int reverseLength = -1; - if (dy == 0 && x1 > x2) - reverseLength = x1 - x2; - else if (dx == 0 && y1 > y2) - reverseLength = y1 - y2; - else if (qAbs(dx) >= qAbs(dy) && x2 < x1) // x major axis - reverseLength = qAbs(dx); - else if (qAbs(dy) >= qAbs(dx) && y2 < y1) // y major axis - reverseLength = qAbs(dy); - - const bool reversed = (reverseLength > -1); - if (reversed) { // reverse pattern - for (int i = 0; i < penPattern.size(); ++i) - pattern[penPattern.size() - 1 - i] = qMax<qreal>(1.0, penPattern.at(i)); - - *patternOffset = (patternLength - 1 - *patternOffset); - *patternOffset += patternLength - (reverseLength % patternLength); - *patternOffset = *patternOffset % patternLength; - } else { - for (int i = 0; i < penPattern.size(); ++i) - pattern[i] = qMax<qreal>(1.0, penPattern.at(i)); - } - - int dashIndex = 0; - bool inDash = !reversed; - int currPattern = int(pattern[dashIndex]); - - // adjust pattern for offset - offset_pattern(*patternOffset, &inDash, &dashIndex, &currPattern, pattern); - - const int NSPANS = 256; - QT_FT_Span spans[NSPANS]; - int current = 0; - bool ordered = true; - - if (dy == 0) { - // specialcase horizontal lines - if (y1 >= devRect.y1 && y1 < devRect.y2) { - int start_unclipped = qMin(x1, x2); - int start = qMax(devRect.x1, start_unclipped); - int stop = qMax(x1, x2) + 1; - int stop_clipped = qMin(devRect.x2, stop); - int len = stop_clipped - start; - if (style == LineDrawNormal && stop == stop_clipped) - len--; - - // adjust pattern for starting offset - offset_pattern(start - start_unclipped, &inDash, &dashIndex, &currPattern, pattern); - - if (len > 0) { - int x = start; - while (x < stop_clipped) { - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - const int dash = qMin(currPattern, stop_clipped - x); - if (inDash) { - spans[current].x = ushort(x); - spans[current].len = ushort(dash); - spans[current].y = y1; - spans[current].coverage = 255; - ++current; - } - if (dash < currPattern) { - currPattern -= dash; - } else { - dashIndex = (dashIndex + 1) % pattern.size(); - currPattern = int(pattern[dashIndex]); - inDash = !inDash; - } - x += dash; - } - } - } - goto flush_and_return; - } else if (dx == 0) { - if (x1 >= devRect.x1 && x1 < devRect.x2) { - int start_unclipped = qMin(y1, y2); - int start = qMax(devRect.y1, start_unclipped); - int stop = qMax(y1, y2) + 1; - int stop_clipped = qMin(devRect.y2, stop); - if (style == LineDrawNormal && stop == stop_clipped) - --stop; - else - stop = stop_clipped; - - // adjust pattern for starting offset - offset_pattern(start - start_unclipped, &inDash, &dashIndex, &currPattern, pattern); - - // loop over dashes - int y = start; - while (y < stop) { - const int dash = qMin(currPattern, stop - y); - if (inDash) { - for (int i = 0; i < dash; ++i) { - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - spans[current].x = x1; - spans[current].len = 1; - spans[current].coverage = 255; - spans[current].y = ushort(y + i); - ++current; - } - } - if (dash < currPattern) { - currPattern -= dash; - } else { - dashIndex = (dashIndex + 1) % pattern.size(); - currPattern = int(pattern[dashIndex]); - inDash = !inDash; - } - y += dash; - } - } - goto flush_and_return; - } - - if (qAbs(dx) >= qAbs(dy)) { /* if x is the major axis: */ - - if (x2 < x1) { /* if coordinates are out of order */ - qt_swap_int(x1, x2); - dx = -dx; - - qt_swap_int(y1, y2); - dy = -dy; - } - - if (style == LineDrawNormal) - --x2; - - // In the loops below we increment before call the span function so - // we need to stop one pixel before - x2 = qMin(x2, devRect.x2 - 1); - - // completely clipped, so abort - if (x2 <= x1) - goto flush_and_return; - - int x = x1; - int y = y1; - - if (x >= devRect.x1 && y >= devRect.y1 && y < devRect.y2) { - Q_ASSERT(x < devRect.x2); - if (inDash) { - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - spans[current].len = 1; - spans[current].coverage = 255; - spans[current].x = x; - spans[current].y = y; - ++current; - } - if (--currPattern <= 0) { - inDash = !inDash; - dashIndex = (dashIndex + 1) % pattern.size(); - currPattern = int(pattern[dashIndex]); - } - } - - if (y2 > y1) { // 315 -> 360 and 135 -> 180 (unit circle degrees) - y2 = qMin(y2, devRect.y2 - 1); - - incrE = dy * 2; - d = incrE - dx; - incrNE = (dy - dx) * 2; - - if (y > y2) - goto flush_and_return; - - while (x < x2) { - if (d > 0) { - ++y; - d += incrNE; - if (y > y2) - goto flush_and_return; - } else { - d += incrE; - } - ++x; - - const bool skip = x < devRect.x1 || y < devRect.y1; - Q_ASSERT(skip || (x < devRect.x2 && y < devRect.y2)); - if (inDash && !skip) { - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - spans[current].len = 1; - spans[current].coverage = 255; - spans[current].x = x; - spans[current].y = y; - ++current; - } - if (--currPattern <= 0) { - inDash = !inDash; - dashIndex = (dashIndex + 1) % pattern.size(); - currPattern = int(pattern[dashIndex]); - } - } - } else { // 0-45 and 180->225 (unit circle degrees) - y1 = qMin(y1, devRect.y2 - 1); - - incrE = dy * 2; - d = incrE + dx; - incrNE = (dy + dx) * 2; - - if (y < devRect.y1) - goto flush_and_return; - - while (x < x2) { - if (d < 0) { - if (current > 0) { - span_func(current, spans, data); - current = 0; - } - - --y; - d += incrNE; - if (y < devRect.y1) - goto flush_and_return; - } else { - d += incrE; - } - ++x; - - const bool skip = x < devRect.x1 || y > y1; - Q_ASSERT(skip || (x < devRect.x2 && y < devRect.y2)); - if (inDash && !skip) { - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - spans[current].len = 1; - spans[current].coverage = 255; - spans[current].x = x; - spans[current].y = y; - ++current; - } - if (--currPattern <= 0) { - inDash = !inDash; - dashIndex = (dashIndex + 1) % pattern.size(); - currPattern = int(pattern[dashIndex]); - } - } - } - } else { - - // if y is the major axis: - - if (y2 < y1) { /* if coordinates are out of order */ - qt_swap_int(y1, y2); - dy = -dy; - - qt_swap_int(x1, x2); - dx = -dx; - } - - if (style == LineDrawNormal) - --y2; - - // In the loops below we increment before call the span function so - // we need to stop one pixel before - y2 = qMin(y2, devRect.y2 - 1); - - // completely clipped, so abort - if (y2 <= y1) - goto flush_and_return; - - x = x1; - y = y1; - - if (x>=devRect.x1 && y>=devRect.y1 && x < devRect.x2) { - Q_ASSERT(x < devRect.x2); - if (inDash) { - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - spans[current].len = 1; - spans[current].coverage = 255; - spans[current].x = x; - spans[current].y = y; - ++current; - } - if (--currPattern <= 0) { - inDash = !inDash; - dashIndex = (dashIndex + 1) % pattern.size(); - currPattern = int(pattern[dashIndex]); - } - } - - if (x2 > x1) { // 90 -> 135 and 270 -> 315 (unit circle degrees) - x2 = qMin(x2, devRect.x2 - 1); - incrE = dx * 2; - d = incrE - dy; - incrNE = (dx - dy) * 2; - - if (x > x2) - goto flush_and_return; - - while (y < y2) { - if (d > 0) { - ++x; - d += incrNE; - if (x > x2) - goto flush_and_return; - } else { - d += incrE; - } - ++y; - const bool skip = x < devRect.x1 || y < devRect.y1; - Q_ASSERT(skip || (x < devRect.x2 && y < devRect.y2)); - if (inDash && !skip) { - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - spans[current].len = 1; - spans[current].coverage = 255; - spans[current].x = x; - spans[current].y = y; - ++current; - } - if (--currPattern <= 0) { - inDash = !inDash; - dashIndex = (dashIndex + 1) % pattern.size(); - currPattern = int(pattern[dashIndex]); - } - } - } else { // 45 -> 90 and 225 -> 270 (unit circle degrees) - x1 = qMin(x1, devRect.x2 - 1); - incrE = dx * 2; - d = incrE + dy; - incrNE = (dx + dy) * 2; - - if (x < devRect.x1) - goto flush_and_return; - - while (y < y2) { - if (d < 0) { - --x; - d += incrNE; - if (x < devRect.x1) - goto flush_and_return; - } else { - d += incrE; - } - ++y; - const bool skip = y < devRect.y1 || x > x1; - Q_ASSERT(skip || (x >= devRect.x1 && x < devRect.x2 && y < devRect.y2)); - if (inDash && !skip) { - if (current == NSPANS) { - span_func(NSPANS, spans, data); - current = 0; - } - spans[current].len = 1; - spans[current].coverage = 255; - spans[current].x = x; - spans[current].y = y; - ++current; - } - if (--currPattern <= 0) { - inDash = !inDash; - dashIndex = (dashIndex + 1) % pattern.size(); - currPattern = int(pattern[dashIndex]); - } - } - } - } -flush_and_return: - if (current > 0) - span_func(current, ordered ? spans : spans + (NSPANS - current), data); - - // adjust offset - if (reversed) { - *patternOffset = (patternLength - 1 - *patternOffset); - } else { - *patternOffset = 0; - for (int i = 0; i <= dashIndex; ++i) - *patternOffset += int(pattern[i]); - *patternOffset += patternLength - currPattern - 1; - *patternOffset = (*patternOffset % patternLength); - } -} - -/*! - \internal - \a x and \a y is relative to the midpoint of \a rect. -*/ -static inline void drawEllipsePoints(int x, int y, int length, - const QRect &rect, - const QRect &clip, - ProcessSpans pen_func, ProcessSpans brush_func, - QSpanData *pen_data, QSpanData *brush_data) -{ - if (length == 0) - return; - - QT_FT_Span outline[4]; - const int midx = rect.x() + (rect.width() + 1) / 2; - const int midy = rect.y() + (rect.height() + 1) / 2; - - x = x + midx; - y = midy - y; - - // topleft - outline[0].x = midx + (midx - x) - (length - 1) - (rect.width() & 0x1); - outline[0].len = qMin(length, x - outline[0].x); - outline[0].y = y; - outline[0].coverage = 255; - - // topright - outline[1].x = x; - outline[1].len = length; - outline[1].y = y; - outline[1].coverage = 255; - - // bottomleft - outline[2].x = outline[0].x; - outline[2].len = outline[0].len; - outline[2].y = midy + (midy - y) - (rect.height() & 0x1); - outline[2].coverage = 255; - - // bottomright - outline[3].x = x; - outline[3].len = length; - outline[3].y = outline[2].y; - outline[3].coverage = 255; - - if (brush_func && outline[0].x + outline[0].len < outline[1].x) { - QT_FT_Span fill[2]; - - // top fill - fill[0].x = outline[0].x + outline[0].len - 1; - fill[0].len = qMax(0, outline[1].x - fill[0].x); - fill[0].y = outline[1].y; - fill[0].coverage = 255; - - // bottom fill - fill[1].x = outline[2].x + outline[2].len - 1; - fill[1].len = qMax(0, outline[3].x - fill[1].x); - fill[1].y = outline[3].y; - fill[1].coverage = 255; - - int n = (fill[0].y >= fill[1].y ? 1 : 2); - n = qt_intersect_spans(fill, n, clip); - if (n > 0) - brush_func(n, fill, brush_data); - } - if (pen_func) { - int n = (outline[1].y >= outline[2].y ? 2 : 4); - n = qt_intersect_spans(outline, n, clip); - if (n > 0) - pen_func(n, outline, pen_data); - } -} - -/*! - \internal - Draws an ellipse using the integer point midpoint algorithm. -*/ -static void drawEllipse_midpoint_i(const QRect &rect, const QRect &clip, - ProcessSpans pen_func, ProcessSpans brush_func, - QSpanData *pen_data, QSpanData *brush_data) -{ - const qreal a = qreal(rect.width()) / 2; - const qreal b = qreal(rect.height()) / 2; - qreal d = b*b - (a*a*b) + 0.25*a*a; - - int x = 0; - int y = (rect.height() + 1) / 2; - int startx = x; - - // region 1 - while (a*a*(2*y - 1) > 2*b*b*(x + 1)) { - if (d < 0) { // select E - d += b*b*(2*x + 3); - ++x; - } else { // select SE - d += b*b*(2*x + 3) + a*a*(-2*y + 2); - drawEllipsePoints(startx, y, x - startx + 1, rect, clip, - pen_func, brush_func, pen_data, brush_data); - startx = ++x; - --y; - } - } - drawEllipsePoints(startx, y, x - startx + 1, rect, clip, - pen_func, brush_func, pen_data, brush_data); - - // region 2 - d = b*b*(x + 0.5)*(x + 0.5) + a*a*((y - 1)*(y - 1) - b*b); - const int miny = rect.height() & 0x1; - while (y > miny) { - if (d < 0) { // select SE - d += b*b*(2*x + 2) + a*a*(-2*y + 3); - ++x; - } else { // select S - d += a*a*(-2*y + 3); - } - --y; - drawEllipsePoints(x, y, 1, rect, clip, - pen_func, brush_func, pen_data, brush_data); - } -} /*! \fn void QRasterPaintEngine::drawPoints(const QPoint *points, int pointCount) diff --git a/src/gui/painting/qpaintengine_raster_p.h b/src/gui/painting/qpaintengine_raster_p.h index 52f51fa..122c2b8 100644 --- a/src/gui/painting/qpaintengine_raster_p.h +++ b/src/gui/painting/qpaintengine_raster_p.h @@ -196,9 +196,6 @@ public: void stroke(const QVectorPath &path, const QPen &pen); void fill(const QVectorPath &path, const QBrush &brush); - void strokePolygonCosmetic(const QPoint *pts, int pointCount, PolygonDrawMode mode); - void strokePolygonCosmetic(const QPointF *pt, int pointCount, PolygonDrawMode mode); - void clip(const QVectorPath &path, Qt::ClipOperation op); void clip(const QRect &rect, Qt::ClipOperation op); void clip(const QRegion ®ion, Qt::ClipOperation op); @@ -328,8 +325,6 @@ public: bool isUnclipped_normalized(const QRect &rect) const; bool isUnclipped(const QRect &rect, int penWidth) const; bool isUnclipped(const QRectF &rect, int penWidth) const; - ProcessSpans getPenFunc(const QRect &rect, const QSpanData *data) const; - ProcessSpans getPenFunc(const QRectF &rect, const QSpanData *data) const; ProcessSpans getBrushFunc(const QRect &rect, const QSpanData *data) const; ProcessSpans getBrushFunc(const QRectF &rect, const QSpanData *data) const; diff --git a/src/gui/painting/qpaintengineex.cpp b/src/gui/painting/qpaintengineex.cpp index 7f601eb..bbdf76f 100644 --- a/src/gui/painting/qpaintengineex.cpp +++ b/src/gui/painting/qpaintengineex.cpp @@ -831,7 +831,7 @@ void QPaintEngineEx::drawEllipse(const QRectF &r) int point_count = 0; x.points[0] = qt_curves_for_arc(r, 0, -360, x.points + 1, &point_count); - QVectorPath vp((qreal *) pts, point_count, qpaintengineex_ellipse_types, QVectorPath::EllipseHint); + QVectorPath vp((qreal *) pts, point_count + 1, qpaintengineex_ellipse_types, QVectorPath::EllipseHint); draw(vp); } |