C++ (Cpp) physicalPointToLogical示例

示例#1

文件： Shape.cpp 项目： howardroark2018/chromium

PassOwnPtr<Shape> Shape::createShape(const BasicShape* basicShape, const LayoutSize& logicalBoxSize, WritingMode writingMode, float margin)
{
    ASSERT(basicShape);

    bool horizontalWritingMode = isHorizontalWritingMode(writingMode);
    float boxWidth = horizontalWritingMode ? logicalBoxSize.width().toFloat() : logicalBoxSize.height().toFloat();
    float boxHeight = horizontalWritingMode ? logicalBoxSize.height().toFloat() : logicalBoxSize.width().toFloat();
    OwnPtr<Shape> shape;

    switch (basicShape->type()) {

    case BasicShape::BasicShapeCircleType: {
        const BasicShapeCircle* circle = toBasicShapeCircle(basicShape);
        FloatPoint center = floatPointForCenterCoordinate(circle->centerX(), circle->centerY(), FloatSize(boxWidth, boxHeight));
        float radius = circle->floatValueForRadiusInBox(FloatSize(boxWidth, boxHeight));
        FloatPoint logicalCenter = physicalPointToLogical(center, logicalBoxSize.height().toFloat(), writingMode);

        shape = createCircleShape(logicalCenter, radius);
        break;
    }

    case BasicShape::BasicShapeEllipseType: {
        const BasicShapeEllipse* ellipse = toBasicShapeEllipse(basicShape);
        FloatPoint center = floatPointForCenterCoordinate(ellipse->centerX(), ellipse->centerY(), FloatSize(boxWidth, boxHeight));
        float radiusX = ellipse->floatValueForRadiusInBox(ellipse->radiusX(), center.x(), boxWidth);
        float radiusY = ellipse->floatValueForRadiusInBox(ellipse->radiusY(), center.y(), boxHeight);
        FloatPoint logicalCenter = physicalPointToLogical(center, logicalBoxSize.height().toFloat(), writingMode);

        shape = createEllipseShape(logicalCenter, FloatSize(radiusX, radiusY));
        break;
    }

    case BasicShape::BasicShapePolygonType: {
        const BasicShapePolygon* polygon = toBasicShapePolygon(basicShape);
        const Vector<Length>& values = polygon->values();
        size_t valuesSize = values.size();
        ASSERT(!(valuesSize % 2));
        OwnPtr<Vector<FloatPoint>> vertices = adoptPtr(new Vector<FloatPoint>(valuesSize / 2));
        for (unsigned i = 0; i < valuesSize; i += 2) {
            FloatPoint vertex(
                floatValueForLength(values.at(i), boxWidth),
                floatValueForLength(values.at(i + 1), boxHeight));
            (*vertices)[i / 2] = physicalPointToLogical(vertex, logicalBoxSize.height().toFloat(), writingMode);
        }
        shape = createPolygonShape(vertices.release(), polygon->windRule());
        break;
    }

    case BasicShape::BasicShapeInsetType: {
        const BasicShapeInset& inset = *toBasicShapeInset(basicShape);
        float left = floatValueForLength(inset.left(), boxWidth);
        float top = floatValueForLength(inset.top(), boxHeight);
        float right = floatValueForLength(inset.right(), boxWidth);
        float bottom = floatValueForLength(inset.bottom(), boxHeight);
        FloatRect rect(left, top, std::max<float>(boxWidth - left - right, 0), std::max<float>(boxHeight - top - bottom, 0));
        FloatRect logicalRect = physicalRectToLogical(rect, logicalBoxSize.height().toFloat(), writingMode);

        FloatSize boxSize(boxWidth, boxHeight);
        FloatSize topLeftRadius = physicalSizeToLogical(floatSizeForLengthSize(inset.topLeftRadius(), boxSize), writingMode);
        FloatSize topRightRadius = physicalSizeToLogical(floatSizeForLengthSize(inset.topRightRadius(), boxSize), writingMode);
        FloatSize bottomLeftRadius = physicalSizeToLogical(floatSizeForLengthSize(inset.bottomLeftRadius(), boxSize), writingMode);
        FloatSize bottomRightRadius = physicalSizeToLogical(floatSizeForLengthSize(inset.bottomRightRadius(), boxSize), writingMode);
        FloatRoundedRect::Radii cornerRadii(topLeftRadius, topRightRadius, bottomLeftRadius, bottomRightRadius);

        FloatRoundedRect finalRect(logicalRect, cornerRadii);
        finalRect.constrainRadii();

        shape = createInsetShape(finalRect);
        break;
    }

    default:
        ASSERT_NOT_REACHED();
    }

    shape->m_writingMode = writingMode;
    shape->m_margin = margin;

    return shape.release();
}

示例#2

文件： Shape.cpp 项目： aosm/WebCore

std::unique_ptr<Shape> Shape::createShape(const BasicShape* basicShape, const LayoutSize& logicalBoxSize, WritingMode writingMode, float margin)
{
    ASSERT(basicShape);

    bool horizontalWritingMode = isHorizontalWritingMode(writingMode);
    float boxWidth = horizontalWritingMode ? logicalBoxSize.width() : logicalBoxSize.height();
    float boxHeight = horizontalWritingMode ? logicalBoxSize.height() : logicalBoxSize.width();
    std::unique_ptr<Shape> shape;

    switch (basicShape->type()) {

    case BasicShape::BasicShapeCircleType: {
        const BasicShapeCircle* circle = static_cast<const BasicShapeCircle*>(basicShape);
        float centerX = floatValueForCenterCoordinate(circle->centerX(), boxWidth);
        float centerY = floatValueForCenterCoordinate(circle->centerY(), boxHeight);
        float radius = circle->floatValueForRadiusInBox(boxWidth, boxHeight);
        FloatPoint logicalCenter = physicalPointToLogical(FloatPoint(centerX, centerY), logicalBoxSize.height(), writingMode);

        shape = createCircleShape(logicalCenter, radius);
        break;
    }

    case BasicShape::BasicShapeEllipseType: {
        const BasicShapeEllipse* ellipse = static_cast<const BasicShapeEllipse*>(basicShape);
        float centerX = floatValueForCenterCoordinate(ellipse->centerX(), boxWidth);
        float centerY = floatValueForCenterCoordinate(ellipse->centerY(), boxHeight);
        float radiusX = ellipse->floatValueForRadiusInBox(ellipse->radiusX(), centerX, boxWidth);
        float radiusY = ellipse->floatValueForRadiusInBox(ellipse->radiusY(), centerY, boxHeight);
        FloatPoint logicalCenter = physicalPointToLogical(FloatPoint(centerX, centerY), logicalBoxSize.height(), writingMode);

        shape = createEllipseShape(logicalCenter, FloatSize(radiusX, radiusY));
        break;
    }

    case BasicShape::BasicShapePolygonType: {
        const BasicShapePolygon& polygon = *static_cast<const BasicShapePolygon*>(basicShape);
        const Vector<Length>& values = polygon.values();
        size_t valuesSize = values.size();
        ASSERT(!(valuesSize % 2));
        std::unique_ptr<Vector<FloatPoint>> vertices = std::make_unique<Vector<FloatPoint>>(valuesSize / 2);
        for (unsigned i = 0; i < valuesSize; i += 2) {
            FloatPoint vertex(
                floatValueForLength(values.at(i), boxWidth),
                floatValueForLength(values.at(i + 1), boxHeight));
            (*vertices)[i / 2] = physicalPointToLogical(vertex, logicalBoxSize.height(), writingMode);
        }

        shape = createPolygonShape(WTF::move(vertices), polygon.windRule());
        break;
    }

    case BasicShape::BasicShapeInsetType: {
        const BasicShapeInset& inset = *static_cast<const BasicShapeInset*>(basicShape);
        float left = floatValueForLength(inset.left(), boxWidth);
        float top = floatValueForLength(inset.top(), boxHeight);
        FloatRect rect(left,
            top,
            std::max<float>(boxWidth - left - floatValueForLength(inset.right(), boxWidth), 0),
            std::max<float>(boxHeight - top - floatValueForLength(inset.bottom(), boxHeight), 0));
        FloatRect logicalRect = physicalRectToLogical(rect, logicalBoxSize.height(), writingMode);

        FloatSize boxSize(boxWidth, boxHeight);
        FloatSize topLeftRadius = physicalSizeToLogical(floatSizeForLengthSize(inset.topLeftRadius(), boxSize), writingMode);
        FloatSize topRightRadius = physicalSizeToLogical(floatSizeForLengthSize(inset.topRightRadius(), boxSize), writingMode);
        FloatSize bottomLeftRadius = physicalSizeToLogical(floatSizeForLengthSize(inset.bottomLeftRadius(), boxSize), writingMode);
        FloatSize bottomRightRadius = physicalSizeToLogical(floatSizeForLengthSize(inset.bottomRightRadius(), boxSize), writingMode);
        FloatRoundedRect::Radii cornerRadii(topLeftRadius, topRightRadius, bottomLeftRadius, bottomRightRadius);

        cornerRadii.scale(calcBorderRadiiConstraintScaleFor(logicalRect, cornerRadii));

        shape = createInsetShape(FloatRoundedRect(logicalRect, cornerRadii));
        break;
    }

    default:
        ASSERT_NOT_REACHED();
    }

    shape->m_writingMode = writingMode;
    shape->m_margin = margin;

    return shape;
}

示例#3

文件： Shape.cpp 项目： webOS-ports/webkit

PassOwnPtr<Shape> Shape::createShape(const BasicShape* basicShape, const LayoutSize& logicalBoxSize, WritingMode writingMode, Length margin, Length padding)
{
    ASSERT(basicShape);

    bool horizontalWritingMode = isHorizontalWritingMode(writingMode);
    float boxWidth = horizontalWritingMode ? logicalBoxSize.width() : logicalBoxSize.height();
    float boxHeight = horizontalWritingMode ? logicalBoxSize.height() : logicalBoxSize.width();
    OwnPtr<Shape> shape;

    switch (basicShape->type()) {

    case BasicShape::BasicShapeRectangleType: {
        const BasicShapeRectangle* rectangle = static_cast<const BasicShapeRectangle*>(basicShape);
        FloatRect bounds(
            floatValueForLength(rectangle->x(), boxWidth),
            floatValueForLength(rectangle->y(), boxHeight),
            floatValueForLength(rectangle->width(), boxWidth),
            floatValueForLength(rectangle->height(), boxHeight));
        FloatSize cornerRadii(
            floatValueForLength(rectangle->cornerRadiusX(), boxWidth),
            floatValueForLength(rectangle->cornerRadiusY(), boxHeight));
        ensureRadiiDoNotOverlap(bounds, cornerRadii);
        FloatRect logicalBounds = physicalRectToLogical(bounds, logicalBoxSize.height(), writingMode);

        shape = createRectangleShape(logicalBounds, physicalSizeToLogical(cornerRadii, writingMode));
        break;
    }

    case BasicShape::BasicShapeCircleType: {
        const BasicShapeCircle* circle = static_cast<const BasicShapeCircle*>(basicShape);
        float centerX = floatValueForLength(circle->centerX(), boxWidth);
        float centerY = floatValueForLength(circle->centerY(), boxHeight);
        float radius = floatValueForLength(circle->radius(), sqrtf((boxWidth * boxWidth + boxHeight * boxHeight) / 2));
        FloatPoint logicalCenter = physicalPointToLogical(FloatPoint(centerX, centerY), logicalBoxSize.height(), writingMode);

        shape = createShapeCircle(logicalCenter, radius);
        break;
    }

    case BasicShape::BasicShapeEllipseType: {
        const BasicShapeEllipse* ellipse = static_cast<const BasicShapeEllipse*>(basicShape);
        float centerX = floatValueForLength(ellipse->centerX(), boxWidth);
        float centerY = floatValueForLength(ellipse->centerY(), boxHeight);
        float radiusX = floatValueForLength(ellipse->radiusX(), boxWidth);
        float radiusY = floatValueForLength(ellipse->radiusY(), boxHeight);
        FloatPoint logicalCenter = physicalPointToLogical(FloatPoint(centerX, centerY), logicalBoxSize.height(), writingMode);
        FloatSize logicalRadii = physicalSizeToLogical(FloatSize(radiusX, radiusY), writingMode);

        shape = createShapeEllipse(logicalCenter, logicalRadii);
        break;
    }

    case BasicShape::BasicShapePolygonType: {
        const BasicShapePolygon* polygon = static_cast<const BasicShapePolygon*>(basicShape);
        const Vector<Length>& values = polygon->values();
        size_t valuesSize = values.size();
        ASSERT(!(valuesSize % 2));
        OwnPtr<Vector<FloatPoint> > vertices = adoptPtr(new Vector<FloatPoint>(valuesSize / 2));
        for (unsigned i = 0; i < valuesSize; i += 2) {
            FloatPoint vertex(
                floatValueForLength(values.at(i), boxWidth),
                floatValueForLength(values.at(i + 1), boxHeight));
            (*vertices)[i / 2] = physicalPointToLogical(vertex, logicalBoxSize.height(), writingMode);
        }

        shape = createPolygonShape(vertices.release(), polygon->windRule());
        break;
    }

    case BasicShape::BasicShapeInsetRectangleType: {
        const BasicShapeInsetRectangle* rectangle = static_cast<const BasicShapeInsetRectangle*>(basicShape);
        float left = floatValueForLength(rectangle->left(), boxWidth);
        float top = floatValueForLength(rectangle->top(), boxHeight);
        FloatRect bounds(
            left,
            top,
            boxWidth - left - floatValueForLength(rectangle->right(), boxWidth),
            boxHeight - top - floatValueForLength(rectangle->bottom(), boxHeight));
        FloatSize cornerRadii(
            floatValueForLength(rectangle->cornerRadiusX(), boxWidth),
            floatValueForLength(rectangle->cornerRadiusY(), boxHeight));
        ensureRadiiDoNotOverlap(bounds, cornerRadii);
        FloatRect logicalBounds = physicalRectToLogical(bounds, logicalBoxSize.height(), writingMode);

        shape = createRectangleShape(logicalBounds, physicalSizeToLogical(cornerRadii, writingMode));
        break;
    }

    default:
        ASSERT_NOT_REACHED();
    }

    shape->m_writingMode = writingMode;
    shape->m_margin = floatValueForLength(margin, 0);
    shape->m_padding = floatValueForLength(padding, 0);

    return shape.release();
}

示例#4

PassOwnPtr<ExclusionShape> ExclusionShape::createExclusionShape(const BasicShape* basicShape, float logicalBoxWidth, float logicalBoxHeight, WritingMode writingMode, Length margin, Length padding)
{
    ASSERT(basicShape);

    bool horizontalWritingMode = isHorizontalWritingMode(writingMode);
    float boxWidth = horizontalWritingMode ? logicalBoxWidth : logicalBoxHeight;
    float boxHeight = horizontalWritingMode ? logicalBoxHeight : logicalBoxWidth;
    OwnPtr<ExclusionShape> exclusionShape;

    switch (basicShape->type()) {

    case BasicShape::BASIC_SHAPE_RECTANGLE: {
        const BasicShapeRectangle* rectangle = static_cast<const BasicShapeRectangle*>(basicShape);
        FloatRect bounds(
            floatValueForLength(rectangle->x(), boxWidth),
            floatValueForLength(rectangle->y(), boxHeight),
            floatValueForLength(rectangle->width(), boxWidth),
            floatValueForLength(rectangle->height(), boxHeight));
        Length radiusXLength = rectangle->cornerRadiusX();
        Length radiusYLength = rectangle->cornerRadiusY();
        FloatSize cornerRadii(
            radiusXLength.isUndefined() ? 0 : floatValueForLength(radiusXLength, boxWidth),
            radiusYLength.isUndefined() ? 0 : floatValueForLength(radiusYLength, boxHeight));
        FloatRect logicalBounds = physicalRectToLogical(bounds, logicalBoxHeight, writingMode);

        exclusionShape = createExclusionRectangle(logicalBounds, physicalSizeToLogical(cornerRadii, writingMode));
        break;
    }

    case BasicShape::BASIC_SHAPE_CIRCLE: {
        const BasicShapeCircle* circle = static_cast<const BasicShapeCircle*>(basicShape);
        float centerX = floatValueForLength(circle->centerX(), boxWidth);
        float centerY = floatValueForLength(circle->centerY(), boxHeight);
        float radius = floatValueForLength(circle->radius(), std::min(boxHeight, boxWidth));
        FloatPoint logicalCenter = physicalPointToLogical(FloatPoint(centerX, centerY), logicalBoxHeight, writingMode);

        exclusionShape = createExclusionCircle(logicalCenter, radius);
        break;
    }

    case BasicShape::BASIC_SHAPE_ELLIPSE: {
        const BasicShapeEllipse* ellipse = static_cast<const BasicShapeEllipse*>(basicShape);
        float centerX = floatValueForLength(ellipse->centerX(), boxWidth);
        float centerY = floatValueForLength(ellipse->centerY(), boxHeight);
        float radiusX = floatValueForLength(ellipse->radiusX(), boxWidth);
        float radiusY = floatValueForLength(ellipse->radiusY(), boxHeight);
        FloatPoint logicalCenter = physicalPointToLogical(FloatPoint(centerX, centerY), logicalBoxHeight, writingMode);
        FloatSize logicalRadii = physicalSizeToLogical(FloatSize(radiusX, radiusY), writingMode);

        exclusionShape = createExclusionEllipse(logicalCenter, logicalRadii);
        break;
    }

    case BasicShape::BASIC_SHAPE_POLYGON: {
        const BasicShapePolygon* polygon = static_cast<const BasicShapePolygon*>(basicShape);
        const Vector<Length>& values = polygon->values();
        size_t valuesSize = values.size();
        ASSERT(!(valuesSize % 2));
        Vector<FloatPoint>* vertices = new Vector<FloatPoint>(valuesSize / 2);
        for (unsigned i = 0; i < valuesSize; i += 2) {
            FloatPoint vertex(
                floatValueForLength(values.at(i), boxWidth),
                floatValueForLength(values.at(i + 1), boxHeight));
            (*vertices)[i / 2] = physicalPointToLogical(vertex, logicalBoxHeight, writingMode);
        }

        exclusionShape = createExclusionPolygon(adoptPtr(vertices), polygon->windRule());
        break;
    }

    default:
        ASSERT_NOT_REACHED();
    }

    exclusionShape->m_logicalBoxWidth = logicalBoxWidth;
    exclusionShape->m_logicalBoxHeight = logicalBoxHeight;
    exclusionShape->m_writingMode = writingMode;
    exclusionShape->m_margin = floatValueForLength(margin, 0);
    exclusionShape->m_padding = floatValueForLength(padding, 0);

    return exclusionShape.release();
}