Bug fixes for seam allowance angle types.

--HG--
branch : develop
This commit is contained in:
Roman Telezhynskyi 2019-09-01 13:01:10 +03:00
parent 27a08641fa
commit 6233ed0daa

View File

@ -132,10 +132,18 @@ QVector<QPointF> AngleByLength(QVector<QPointF> points, QPointF p2, const QLineF
if (p.GetAngleType() != PieceNodeAngle::ByLengthCurve)
{
bool success = false;
points = VAbstractPiece::RollbackSeamAllowance(points, bigLine2, &success);
QVector<QPointF> temp = points;
temp.append(bigLine1.p2());
temp = VAbstractPiece::RollbackSeamAllowance(temp, bigLine2, &success);
if (success)
{
points = temp;
}
if (needRollback != nullptr)
{
*needRollback = true;
*needRollback = not success;
}
}
else
@ -205,7 +213,7 @@ QVector<QPointF> AngleByIntersection(const QVector<QPointF> &points, QPointF p1,
if (needRollback != nullptr)
{
*needRollback = true;
*needRollback = not success;
}
}
@ -272,11 +280,18 @@ QVector<QPointF> AngleByFirstSymmetry(const QVector<QPointF> &points, QPointF p1
else
{// Because artificial loop can lead to wrong clipping we must rollback current seam allowance points
bool success = false;
pointsIntr = VAbstractPiece::RollbackSeamAllowance(pointsIntr, sEdge, &success);
QVector<QPointF> temp = pointsIntr;
temp.append(bigLine1.p2());
temp = VAbstractPiece::RollbackSeamAllowance(temp, sEdge, &success);
if (success)
{
pointsIntr = temp;
}
if (needRollback != nullptr)
{
*needRollback = true;
*needRollback = not success;
}
}
@ -326,7 +341,6 @@ QVector<QPointF> AngleBySecondSymmetry(const QVector<QPointF> &points, QPointF p
const qreal localWidth = p.MaxLocalSA(width);
QVector<QPointF> pointsIntr = points;
bool rollbackFlag = false;
if (IsOutsidePoint(bigLine1.p1(), bigLine1.p2(), px1))
{
pointsIntr.append(px1);
@ -334,21 +348,24 @@ QVector<QPointF> AngleBySecondSymmetry(const QVector<QPointF> &points, QPointF p
else
{// Because artificial loop can lead to wrong clipping we must rollback current seam allowance points
bool success = false;
pointsIntr = VAbstractPiece::RollbackSeamAllowance(pointsIntr, sEdge, &success);
rollbackFlag = true;
QVector<QPointF> temp = pointsIntr;
temp.append(bigLine1.p2());
temp = VAbstractPiece::RollbackSeamAllowance(temp, sEdge, &success);
if (success)
{
pointsIntr = temp;
}
if (needRollback != nullptr)
{
*needRollback = true;
*needRollback = not success;
}
}
if (IsOutsidePoint(bigLine2.p2(), bigLine2.p1(), px2))
{
if (not rollbackFlag)
{
pointsIntr.append(px2);
}
pointsIntr.append(px2);
}
else
{
@ -357,7 +374,7 @@ QVector<QPointF> AngleBySecondSymmetry(const QVector<QPointF> &points, QPointF p
pointsIntr.append(allowance.p2());
allowance.setLength(allowance.length() + localWidth * 3.);
pointsIntr.append(allowance.p2());
pointsIntr.append(bigLine2.p2());
pointsIntr.append(bigLine2.p1());
}
return pointsIntr;
@ -452,7 +469,14 @@ QVector<QPointF> AngleBySecondRightAngle(QVector<QPointF> points, QPointF p2, QP
// Because artificial loop can lead to wrong clipping we must rollback current seam allowance points
bool success = false;
const int countBefore = points.size();
points = VAbstractPiece::RollbackSeamAllowance(points, edge, &success);
QVector<QPointF> temp = points;
temp.append(bigLine1.p2());
temp = VAbstractPiece::RollbackSeamAllowance(temp, edge, &success);
if (success)
{
points = temp;
}
if (success)
{
@ -470,7 +494,7 @@ QVector<QPointF> AngleBySecondRightAngle(QVector<QPointF> points, QPointF p2, QP
{
if (needRollback != nullptr)
{
*needRollback = true;
*needRollback = not success;
}
}
}
@ -795,10 +819,31 @@ QVector<QPointF> VAbstractPiece::Equidistant(QVector<VSAPoint> points, qreal wid
break;
case PieceNodeAngle::ByLength:
case PieceNodeAngle::ByLengthCurve:
case PieceNodeAngle::ByFirstEdgeSymmetry:
case PieceNodeAngle::BySecondEdgeSymmetry:
{
const QLineF bigLine1 = ParallelLine(points.at(points.size()-2), points.at(0), width);
ekvPoints.insert(ekvPoints.size()-1, bigLine1.p2());
Rollback(ParallelLine(points.at(0), points.at(1), width));
break;
}
case PieceNodeAngle::ByFirstEdgeSymmetry:
{
const QLineF axis = QLineF(points.at(points.size()-2), points.at(points.size()-1));
const QLineF bigLine2 = ParallelLine(points.at(points.size()-1), points.at(1), width);
QLineF sEdge(VPointF::FlipPF(axis, bigLine2.p1()), VPointF::FlipPF(axis, bigLine2.p2()));
const QLineF bigLine1 = ParallelLine(points.at(points.size()-2), points.at(0), width);
ekvPoints.insert(ekvPoints.size()-1, bigLine1.p2());
Rollback(sEdge);
break;
}
case PieceNodeAngle::BySecondEdgeSymmetry:
{
const QLineF axis = QLineF(points.at(points.size()-1), points.at(1));
const QLineF bigLine1 = ParallelLine(points.at(points.size()-2), points.at(0), width);
QLineF sEdge(VPointF::FlipPF(axis, bigLine1.p1()), VPointF::FlipPF(axis, bigLine1.p2()));
ekvPoints.insert(ekvPoints.size()-1, bigLine1.p2());
Rollback(sEdge);
break;
}
case PieceNodeAngle::ByPointsIntersection:
Rollback(QLineF(points.last(), points.at(1)));
if (ekvPoints.size() > 2)
@ -839,6 +884,7 @@ QVector<QPointF> VAbstractPiece::Equidistant(QVector<VSAPoint> points, qreal wid
else
{
bool success = false;
ekvPoints.insert(ekvPoints.size()-1, bigLine1.p2());
ekvPoints = RollbackSeamAllowance(ekvPoints, edge, &success);
if (success)
@ -871,7 +917,9 @@ QVector<QPointF> VAbstractPiece::Equidistant(QVector<VSAPoint> points, qreal wid
}
const bool removeFirstAndLast = false;
ekvPoints = CheckLoops(CorrectEquidistantPoints(ekvPoints, removeFirstAndLast));//Result path can contain loops
ekvPoints = CheckLoops(RemoveDublicates(ekvPoints, removeFirstAndLast));//Result path can contain loops
ekvPoints = CorrectEquidistantPoints(ekvPoints, removeFirstAndLast);
ekvPoints = CorrectPathDistortion(ekvPoints);
// DumpVector(ekvPoints); // Uncomment for dumping test data
return ekvPoints;
}
@ -1444,7 +1492,7 @@ QVector<QPointF> VAbstractPiece::RollbackSeamAllowance(QVector<QPointF> points,
const QLineF::IntersectType type = cuttingEdge.intersect(segment, &crosPoint);
if (type != QLineF::NoIntersection
&& VGObject::IsPointOnLineSegment(crosPoint, segment.p1(), segment.p2())
&& IsOutsidePoint(cuttingEdge.p2(), cuttingEdge.p1(), crosPoint))
&& IsSameDirection(cuttingEdge.p2(), cuttingEdge.p1(), crosPoint))
{
clipped.append(crosPoint);
for (int j=i-1; j>=0; --j)