void GraphicsContext::drawFocusRing(const Vector<IntRect>& rects, int width, int offset, const Color& color) { if (paintingDisabled()) return; if (rects.isEmpty()) return; // FIXME: We just unite all focus ring rects into one for now. // We should outline the edge of the full region. offset += (width - 1) / 2; IntRect finalFocusRect; for (unsigned i = 0; i < rects.size(); i++) { IntRect focusRect = rects[i]; focusRect.inflate(offset); finalFocusRect.unite(focusRect); } StrokeStyle oldStyle = m_data->strokeStyle(); Color oldStrokeColor = m_data->strokeColor(); m_data->setStrokeStyle(DashedStroke); m_data->setStrokeColor(color); strokeRect(FloatRect(finalFocusRect), 1.f); m_data->setStrokeStyle(oldStyle); m_data->setStrokeColor(oldStrokeColor); }
void Widget_CheckBox::paintEvent(WidgetPaintEvent* event) { auto p = event->painter(); p->strokeRect({0, 0, width(), height()}, Color(31, 31, 31), Color(190, 190, 190), 2); if(isChecked()) { p->putImage(g_check_texture, {0, 0}); } }
int Context2D::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QObject::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { switch (_id) { case 0: changed((*reinterpret_cast< const QImage(*)>(_a[1]))); break; case 1: save(); break; case 2: restore(); break; case 3: scale((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2]))); break; case 4: rotate((*reinterpret_cast< qreal(*)>(_a[1]))); break; case 5: translate((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2]))); break; case 6: transform((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4])),(*reinterpret_cast< qreal(*)>(_a[5])),(*reinterpret_cast< qreal(*)>(_a[6]))); break; case 7: setTransform((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4])),(*reinterpret_cast< qreal(*)>(_a[5])),(*reinterpret_cast< qreal(*)>(_a[6]))); break; case 8: { CanvasGradient _r = createLinearGradient((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4]))); if (_a[0]) *reinterpret_cast< CanvasGradient*>(_a[0]) = _r; } break; case 9: { CanvasGradient _r = createRadialGradient((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4])),(*reinterpret_cast< qreal(*)>(_a[5])),(*reinterpret_cast< qreal(*)>(_a[6]))); if (_a[0]) *reinterpret_cast< CanvasGradient*>(_a[0]) = _r; } break; case 10: clearRect((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4]))); break; case 11: fillRect((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4]))); break; case 12: strokeRect((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4]))); break; case 13: beginPath(); break; case 14: closePath(); break; case 15: moveTo((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2]))); break; case 16: lineTo((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2]))); break; case 17: quadraticCurveTo((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4]))); break; case 18: bezierCurveTo((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4])),(*reinterpret_cast< qreal(*)>(_a[5])),(*reinterpret_cast< qreal(*)>(_a[6]))); break; case 19: arcTo((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4])),(*reinterpret_cast< qreal(*)>(_a[5]))); break; case 20: rect((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4]))); break; case 21: arc((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4])),(*reinterpret_cast< qreal(*)>(_a[5])),(*reinterpret_cast< bool(*)>(_a[6]))); break; case 22: fill(); break; case 23: stroke(); break; case 24: clip(); break; case 25: { bool _r = isPointInPath((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2]))); if (_a[0]) *reinterpret_cast< bool*>(_a[0]) = _r; } break; case 26: drawImage((*reinterpret_cast< DomImage*(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3]))); break; case 27: drawImage((*reinterpret_cast< DomImage*(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4])),(*reinterpret_cast< qreal(*)>(_a[5]))); break; case 28: drawImage((*reinterpret_cast< DomImage*(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4])),(*reinterpret_cast< qreal(*)>(_a[5])),(*reinterpret_cast< qreal(*)>(_a[6])),(*reinterpret_cast< qreal(*)>(_a[7])),(*reinterpret_cast< qreal(*)>(_a[8])),(*reinterpret_cast< qreal(*)>(_a[9]))); break; case 29: { ImageData _r = getImageData((*reinterpret_cast< qreal(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3])),(*reinterpret_cast< qreal(*)>(_a[4]))); if (_a[0]) *reinterpret_cast< ImageData*>(_a[0]) = _r; } break; case 30: putImageData((*reinterpret_cast< ImageData(*)>(_a[1])),(*reinterpret_cast< qreal(*)>(_a[2])),(*reinterpret_cast< qreal(*)>(_a[3]))); break; default: ; } _id -= 31; } #ifndef QT_NO_PROPERTIES else if (_c == QMetaObject::ReadProperty) { void *_v = _a[0]; switch (_id) { case 0: *reinterpret_cast< qreal*>(_v) = globalAlpha(); break; case 1: *reinterpret_cast< QString*>(_v) = globalCompositeOperation(); break; case 2: *reinterpret_cast< QVariant*>(_v) = strokeStyle(); break; case 3: *reinterpret_cast< QVariant*>(_v) = fillStyle(); break; case 4: *reinterpret_cast< qreal*>(_v) = lineWidth(); break; case 5: *reinterpret_cast< QString*>(_v) = lineCap(); break; case 6: *reinterpret_cast< QString*>(_v) = lineJoin(); break; case 7: *reinterpret_cast< qreal*>(_v) = miterLimit(); break; case 8: *reinterpret_cast< qreal*>(_v) = shadowOffsetX(); break; case 9: *reinterpret_cast< qreal*>(_v) = shadowOffsetY(); break; case 10: *reinterpret_cast< qreal*>(_v) = shadowBlur(); break; case 11: *reinterpret_cast< QString*>(_v) = shadowColor(); break; } _id -= 12; } else if (_c == QMetaObject::WriteProperty) { void *_v = _a[0]; switch (_id) { case 0: setGlobalAlpha(*reinterpret_cast< qreal*>(_v)); break; case 1: setGlobalCompositeOperation(*reinterpret_cast< QString*>(_v)); break; case 2: setStrokeStyle(*reinterpret_cast< QVariant*>(_v)); break; case 3: setFillStyle(*reinterpret_cast< QVariant*>(_v)); break; case 4: setLineWidth(*reinterpret_cast< qreal*>(_v)); break; case 5: setLineCap(*reinterpret_cast< QString*>(_v)); break; case 6: setLineJoin(*reinterpret_cast< QString*>(_v)); break; case 7: setMiterLimit(*reinterpret_cast< qreal*>(_v)); break; case 8: setShadowOffsetX(*reinterpret_cast< qreal*>(_v)); break; case 9: setShadowOffsetY(*reinterpret_cast< qreal*>(_v)); break; case 10: setShadowBlur(*reinterpret_cast< qreal*>(_v)); break; case 11: setShadowColor(*reinterpret_cast< QString*>(_v)); break; } _id -= 12; } else if (_c == QMetaObject::ResetProperty) { _id -= 12; } else if (_c == QMetaObject::QueryPropertyDesignable) { _id -= 12; } else if (_c == QMetaObject::QueryPropertyScriptable) { _id -= 12; } else if (_c == QMetaObject::QueryPropertyStored) { _id -= 12; } else if (_c == QMetaObject::QueryPropertyEditable) { _id -= 12; } else if (_c == QMetaObject::QueryPropertyUser) { _id -= 12; } #endif // QT_NO_PROPERTIES return _id; }
void strokeRectNS (const Vec2f& pos, const Vec2f& screenSize, U32 abgr) { strokeRect(Vec4f(pos, 0.0f, 1.0f), 0.0f, screenSize, abgr); }
void strokeRect (const Vec2f& pos, const Vec2f& localSize, U32 abgr) { strokeRect(Vec4f(pos, 0.0f, 1.0f), localSize, 0.0f, abgr); }
void QNanoPainter::strokeRect(const QRectF &rect) { strokeRect(rect.x(), rect.y(), rect.width(), rect.height()); }
void CanvasRenderingContext2D::strokeRect(float x, float y, float width, float height, ExceptionCode& ec) { strokeRect(x, y, width, height, state().m_lineWidth, ec); }
void CanvasRenderingContext2D::strokeRect(float x, float y, float width, float height) { if (!validateRectForCanvas(x, y, width, height)) return; strokeRect(x, y, width, height, state().m_lineWidth); }
inline void strokeRect(const T & value, Vector2i o, Vector2i size) { strokeRect(value, o.x, o.y, size.x, size.y); }