void Inkscape::LineSnapper::freeSnap(SnappedConstraints &sc,
                                                    Inkscape::SnapPreferences::PointType const &t,
                                                    Geom::Point const &p,
                                                    bool const &/*f*/,
                                                    Geom::OptRect const &/*bbox_to_snap*/,
                                                    std::vector<SPItem const *> const */*it*/,
                                                    std::vector<Geom::Point> */*unselected_nodes*/) const
{
	if (_snap_enabled == false || _snapmanager->snapprefs.getSnapFrom(t) == false) {
        return;
    }

    /* Get the lines that we will try to snap to */
    const LineList lines = _getSnapLines(p);

    // std::cout << "snap point " << p << " to: " << std::endl;

    for (LineList::const_iterator i = lines.begin(); i != lines.end(); i++) {
        Geom::Point const p1 = i->second; // point at guide/grid line
        Geom::Point const p2 = p1 + Geom::rot90(i->first); // 2nd point at guide/grid line
        // std::cout << "  line through " << i->second << " with normal " << i->first;
        g_assert(i->first != Geom::Point(0,0)); // we cannot project on an linesegment of zero length

        Geom::Point const p_proj = project_on_linesegment(p, p1, p2);
        Geom::Coord const dist = Geom::L2(p_proj - p);
        //Store any line that's within snapping range
        if (dist < getSnapperTolerance()) {
            _addSnappedLine(sc, p_proj, dist, i->first, i->second);
            // std::cout << " -> distance = " << dist;
        }
        // std::cout << std::endl;
    }
}
Esempio n. 2
0
void Inkscape::LineSnapper::constrainedSnap(SnappedConstraints &sc,
                                               Inkscape::SnapCandidatePoint const &p,
                                               Geom::OptRect const &/*bbox_to_snap*/,
                                               ConstraintLine const &c,
                                               std::vector<SPItem const *> const */*it*/) const

{
    if (_snap_enabled == false || _snapmanager->snapprefs.getSnapFrom(p.getSourceType()) == false) {
        return;
    }

    /* Get the lines that we will try to snap to */
    const LineList lines = _getSnapLines(p.getPoint());

    for (LineList::const_iterator i = lines.begin(); i != lines.end(); i++) {
        if (Geom::L2(c.getDirection()) > 0) { // Can't do a constrained snap without a constraint
            // constraint line
            Geom::Point const point_on_line = c.hasPoint() ? c.getPoint() : p.getPoint();
            Geom::Line line1(point_on_line, point_on_line + c.getDirection());

            // grid/guide line
            Geom::Point const p1 = i->second; // point at guide/grid line
            Geom::Point const p2 = p1 + Geom::rot90(i->first); // 2nd point at guide/grid line
            Geom::Line line2(p1, p2);

            Geom::OptCrossing inters = Geom::OptCrossing(); // empty by default
            try
            {
                inters = Geom::intersection(line1, line2);
            }
            catch (Geom::InfiniteSolutions e)
            {
                // We're probably dealing with parallel lines, so snapping doesn't make any sense here
                continue; // jump to the next iterator in the for-loop
            }

            if (inters) {
                Geom::Point t = line1.pointAt((*inters).ta);
                const Geom::Coord dist = Geom::L2(t - p.getPoint());
                if (dist < getSnapperTolerance()) {
                    // When doing a constrained snap, we're already at an intersection.
                    // This snappoint is therefore fully constrained, so there's no need
                    // to look for additional intersections; just return the snapped point
                    // and forget about the line
                    _addSnappedPoint(sc, t, dist, p.getSourceType(), p.getSourceNum(), true);
                    // For any line that's within range, we will also look at it's "point on line" p1. For guides
                    // this point coincides with its origin; for grids this is of no use, but we cannot
                    // discern between grids and guides here
                    Geom::Coord const dist_p1 = Geom::L2(p1 - p.getPoint());
                    if (dist_p1 < getSnapperTolerance()) {
                        _addSnappedLinesOrigin(sc, p1, dist_p1, p.getSourceType(), p.getSourceNum(), true);
                        // Only relevant for guides; grids don't have an origin per line
                        // Therefore _addSnappedLinesOrigin() will only be implemented for guides
                    }
                }
            }
        }
    }
}
Esempio n. 3
0
// Write file from memory buffer
int WriteOutputFile(LineList &lines, const TCHAR *filename)
{
  FILE *f;
  LineList::const_iterator it;

  f = _wfopen(filename,TEXT("wb+"));
  if (f==NULL) return 1;
  for (it = lines.begin(); it != lines.end(); ++it) fputs(it->c_str(),f);
  fclose(f);
  return 0;
}
void Inkscape::LineSnapper::constrainedSnap(SnappedConstraints &sc,
                                               Inkscape::SnapPreferences::PointType const &t,
                                               Geom::Point const &p,
                                               bool const &/*f*/,
                                               Geom::OptRect const &/*bbox_to_snap*/,
                                               ConstraintLine const &c,
                                               std::vector<SPItem const *> const */*it*/) const

{
    if (_snap_enabled == false || _snapmanager->snapprefs.getSnapFrom(t) == false) {
        return;
    }

    /* Get the lines that we will try to snap to */
    const LineList lines = _getSnapLines(p);

    for (LineList::const_iterator i = lines.begin(); i != lines.end(); i++) {
        if (Geom::L2(c.getDirection()) > 0) { // Can't do a constrained snap without a constraint
            /* Normal to the line we're trying to snap along */
            Geom::Point const n(Geom::rot90(Geom::unit_vector(c.getDirection())));

            Geom::Point const point_on_line = c.hasPoint() ? c.getPoint() : p;

            /* Constant term of the line we're trying to snap along */
            Geom::Coord const q0 = dot(n, point_on_line);
            /* Constant term of the grid or guide line */
            Geom::Coord const q1 = dot(i->first, i->second);

            /* Try to intersect this line with the target line */
            Geom::Point t_2geom(NR_HUGE, NR_HUGE);
            Geom::IntersectorKind const k = Geom::line_intersection(n, q0, i->first, q1, t_2geom);
            Geom::Point t(t_2geom);

            if (k == Geom::intersects) {
                const Geom::Coord dist = L2(t - p);
                if (dist < getSnapperTolerance()) {
    				// When doing a constrained snap, we're already at an intersection.
                    // This snappoint is therefore fully constrained, so there's no need
                    // to look for additional intersections; just return the snapped point
                    // and forget about the line
                    sc.points.push_back(SnappedPoint(t, Inkscape::SNAPTARGET_UNDEFINED, dist, getSnapperTolerance(), getSnapperAlwaysSnap(), true));
                    // The type of the snap target is yet undefined, as we cannot tell whether
                    // we're snapping to grid or the guide lines; must be set by on a higher level
                }
            }
        }
    }
}
Esempio n. 5
0
void GenerateMD5(LineList &lines, md5generators_t *md5s)
{
    
  md5s->a.Init( 0x63e54c01, 0x25adab89, 0x44baecfe, 0x60f25476 );
  md5s->b.Init( 0x41e24d03, 0x23b8ebea, 0x4a4bfc9e, 0x640ed89a );
  md5s->c.Init( 0x61e54e01, 0x22cdab89, 0x48b20cfe, 0x62125476 );
  md5s->d.Init( 0xc1e84fe8, 0x21d1c28a, 0x438e1a12, 0x6c250aee );

  int skipwhitespaces = 1;
  
  LineList::const_iterator it;
  
  for (it = lines.begin(); it != lines.end(); ++it) {
    for (unsigned int i=0; i<(it->length()); ++i) {
      //Skip whitespaces
      if (skipwhitespaces) {
        char c = it->c_str()[i];
        if (c >= 0x20 && c <= 0x7E &&
            c != 0x0D &&
            c != 0x0A &&
            c != 0x24 &&
            c != 0x2A &&
            c != 0x2C &&
            c != 0x21 &&
            c != 0x5C &&
            c != 0x5E &&
            c != 0x7E) ; else continue;
      }
      md5s->a.Update((const unsigned char*)it->c_str()+i, 1);
      md5s->b.Update((const unsigned char*)it->c_str()+i, 1);
      md5s->c.Update((const unsigned char*)it->c_str()+i, 1);
      md5s->d.Update((const unsigned char*)it->c_str()+i, 1);
    }
  }
  md5s->a.Final();
  md5s->b.Final();
  md5s->c.Final();
  md5s->d.Final();
}
Esempio n. 6
0
void Inkscape::LineSnapper::freeSnap(SnappedConstraints &sc,
                                                    Inkscape::SnapCandidatePoint const &p,
                                                    Geom::OptRect const &/*bbox_to_snap*/,
                                                    std::vector<SPItem const *> const */*it*/,
                                                    std::vector<Inkscape::SnapCandidatePoint> */*unselected_nodes*/) const
{
    if (!(_snap_enabled && _snapmanager->snapprefs.getSnapFrom(p.getSourceType())) ) {
        return;
    }

    /* Get the lines that we will try to snap to */
    const LineList lines = _getSnapLines(p.getPoint());

    for (LineList::const_iterator i = lines.begin(); i != lines.end(); i++) {
        Geom::Point const p1 = i->second; // point at guide/grid line
        Geom::Point const p2 = p1 + Geom::rot90(i->first); // 2nd point at guide/grid line
        // std::cout << "  line through " << i->second << " with normal " << i->first;
        g_assert(i->first != Geom::Point(0,0)); // we cannot project on an linesegment of zero length

        Geom::Point const p_proj = Geom::projection(p.getPoint(), Geom::Line(p1, p2));
        Geom::Coord const dist = Geom::L2(p_proj - p.getPoint());
        //Store any line that's within snapping range
        if (dist < getSnapperTolerance()) {
            _addSnappedLine(sc, p_proj, dist, p.getSourceType(), p.getSourceNum(), i->first, i->second);
            // For any line that's within range, we will also look at it's "point on line" p1. For guides
            // this point coincides with its origin; for grids this is of no use, but we cannot
            // discern between grids and guides here
            Geom::Coord const dist_p1 = Geom::L2(p1 - p.getPoint());
            if (dist_p1 < getSnapperTolerance()) {
                _addSnappedLinesOrigin(sc, p1, dist_p1, p.getSourceType(), p.getSourceNum(), false);
                // Only relevant for guides; grids don't have an origin per line
                // Therefore _addSnappedLinesOrigin() will only be implemented for guides
            }
            // std::cout << " -> distance = " << dist;
        }
        // std::cout << std::endl;
    }
}
Esempio n. 7
0
	void writeStream(std::ostream &stream, int tabCount)
	{
		for(ValueMap::iterator vi = values.begin(); vi != values.end(); ++vi)
		{
			writeTabs(stream, tabCount);
			stream << (*vi).first << " = " << (*vi).second.first << std::endl;
		}

		for(GroupMap::iterator gi = groups.begin(); gi != groups.end(); ++gi)
		{
			if((gi != groups.begin()) || (!values.empty()))
				stream << std::endl;

			writeTabs(stream, tabCount);
			stream << (*gi).first << std::endl;

			writeTabs(stream, tabCount);
			stream << "{" << std::endl;

			(*gi).second->writeStream(stream, tabCount + 1),
			
			writeTabs(stream, tabCount);
			stream << "}" << std::endl;			
		}

		if(!lines.empty() && ((!groups.empty() || !values.empty())))
			stream << std::endl;

		for(LineList::iterator li = lines.begin(); li != lines.end(); ++li)
		{
			writeTabs(stream, tabCount);

			std::string &f = (*li);
			stream << (*li) << std::endl;
		}
	}
Esempio n. 8
0
int main(int theArgCount, char ** theArgs)
{
    if (theArgCount == 1)
    {
        cout << "File name must be specified\n";
        return 1;
    }

    ifstream aF( theArgs[1], ios::in );

    if ( !aF.is_open() )
    {
        cout << "File not found\n";
        return 1;
    }

    LineList aVect;

    while (true)
    {
        char aData[500];
        aF.getline(aData, sizeof aData);

        ProcessLine(aVect, aData);

        if ( aF.bad() || aF.eof() ) break;
    }

    aF.close();

    if (BuildNumber == 0)
    {
        cout << "#define BUILDNUMBER string not found\n";
        return 1;
    }

    ofstream aFO(theArgs[1], ios::out|ios::trunc);

    if ( !aFO.is_open() )
    {
        cout << "Could not write data back to file\n";
        return 1;
    }



    bool aNewLine = false;
    for (LineIter aIt = aVect.begin(); aIt != aVect.end(); aIt++)
    {
        if (aNewLine)
            aFO << endl;

        aFO << *aIt;

        aNewLine = true;
    }

    aFO.close();

    cout << "Success\n";
    return 0;
}
Esempio n. 9
0
void Inkscape::LineSnapper::constrainedSnap(IntermSnapResults &isr,
                                               Inkscape::SnapCandidatePoint const &p,
                                               Geom::OptRect const &/*bbox_to_snap*/,
                                               SnapConstraint const &c,
                                               std::vector<SPItem const *> const */*it*/,
                                               std::vector<SnapCandidatePoint> */*unselected_nodes*/) const

{
    if (_snap_enabled == false || _snapmanager->snapprefs.isSourceSnappable(p.getSourceType()) == false) {
        return;
    }

    // project the mouse pointer onto the constraint. Only the projected point will be considered for snapping
    Geom::Point pp = c.projection(p.getPoint());

    /* Get the lines that we will try to snap to */
    const LineList lines = _getSnapLines(pp);

    for (LineList::const_iterator i = lines.begin(); i != lines.end(); ++i) {
        Geom::Point const point_on_line = c.hasPoint() ? c.getPoint() : pp;
        Geom::Line gridguide_line(i->second, i->second + Geom::rot90(i->first));

        if (c.isCircular()) {
            // Find the intersections between the line and the circular constraint
            // First, project the origin of the circle onto the line
            Geom::Point const origin = c.getPoint();
            Geom::Point const p_proj = Geom::projection(origin, gridguide_line);
            Geom::Coord dist = Geom::L2(p_proj - origin); // distance from circle origin to constraint line
            Geom::Coord radius = c.getRadius();
            if (dist == radius) {
                // Only one point of intersection;
                _addSnappedPoint(isr, p_proj, Geom::L2(pp - p_proj), p.getSourceType(), p.getSourceNum(), true);
            } else if (dist < radius) {
                // Two points of intersection, symmetrical with respect to the projected point
                // Calculate half the length of the linesegment between the two points of intersection
                Geom::Coord l = sqrt(radius*radius - dist*dist);
                Geom::Coord d = Geom::L2(gridguide_line.versor()); // length of versor, needed to normalize the versor
                if (d > 0) {
                    Geom::Point v = l*gridguide_line.versor()/d;
                    _addSnappedPoint(isr, p_proj + v, Geom::L2(p.getPoint() - (p_proj + v)), p.getSourceType(), p.getSourceNum(), true);
                    _addSnappedPoint(isr, p_proj - v, Geom::L2(p.getPoint() - (p_proj - v)), p.getSourceType(), p.getSourceNum(), true);
                }
            }
        } else {
            // Find the intersections between the line and the linear constraint
            Geom::Line constraint_line(point_on_line, point_on_line + c.getDirection());
            Geom::OptCrossing inters = Geom::OptCrossing(); // empty by default
            try
            {
                inters = Geom::intersection(constraint_line, gridguide_line);
            }
            catch (Geom::InfiniteSolutions &e)
            {
                // We're probably dealing with parallel lines, so snapping doesn't make any sense here
                continue; // jump to the next iterator in the for-loop
            }

            if (inters) {
                Geom::Point t = constraint_line.pointAt((*inters).ta);
                const Geom::Coord dist = Geom::L2(t - p.getPoint());
                if (dist < getSnapperTolerance()) {
                    // When doing a constrained snap, we're already at an intersection.
                    // This snappoint is therefore fully constrained, so there's no need
                    // to look for additional intersections; just return the snapped point
                    // and forget about the line
                    _addSnappedPoint(isr, t, dist, p.getSourceType(), p.getSourceNum(), true);
                }
            }
        }
    }
}
Esempio n. 10
0
void Inkscape::LineSnapper::freeSnap(IntermSnapResults &isr,
                                                    Inkscape::SnapCandidatePoint const &p,
                                                    Geom::OptRect const &/*bbox_to_snap*/,
                                                    std::vector<SPItem const *> const */*it*/,
                                                    std::vector<Inkscape::SnapCandidatePoint> */*unselected_nodes*/) const
{
    if (!(_snap_enabled && _snapmanager->snapprefs.isSourceSnappable(p.getSourceType())) ) {
        return;
    }

    /* Get the lines that we will try to snap to */
    const LineList lines = _getSnapLines(p.getPoint());

    for (LineList::const_iterator i = lines.begin(); i != lines.end(); ++i) {
        Geom::Point const p1 = i->second; // point at guide/grid line
        Geom::Point const p2 = p1 + Geom::rot90(i->first); // 2nd point at guide/grid line
        // std::cout << "  line through " << i->second << " with normal " << i->first;
        assert(i->first != Geom::Point(0,0)); // we cannot project on an linesegment of zero length

        Geom::Point const p_proj = Geom::projection(p.getPoint(), Geom::Line(p1, p2));
        Geom::Coord const dist = Geom::L2(p_proj - p.getPoint());
        //Store any line that's within snapping range
        if (dist < getSnapperTolerance()) {
            _addSnappedLine(isr, p_proj, dist, p.getSourceType(), p.getSourceNum(), i->first, i->second);
            // For any line that's within range, we will also look at it's "point on line" p1. For guides
            // this point coincides with its origin; for grids this is of no use, but we cannot
            // discern between grids and guides here
            Geom::Coord const dist_p1 = Geom::L2(p1 - p.getPoint());
            if (dist_p1 < getSnapperTolerance()) {
                _addSnappedLinesOrigin(isr, p1, dist_p1, p.getSourceType(), p.getSourceNum(), false);
                // Only relevant for guides; grids don't have an origin per line
                // Therefore _addSnappedLinesOrigin() will only be implemented for guides
            }

            // Here we will try to snap either tangentially or perpendicularly to a grid/guide line
            // For this we need to know where the origin is located of the line that is currently being rotated,
            std::vector<std::pair<Geom::Point, bool> > const origins_and_vectors = p.getOriginsAndVectors();
            // Now we will iterate over all the origins and vectors and see which of these will get use a tangential or perpendicular snap
            for (std::vector<std::pair<Geom::Point, bool> >::const_iterator it_origin_or_vector = origins_and_vectors.begin(); it_origin_or_vector != origins_and_vectors.end(); ++it_origin_or_vector) {
                if ((*it_origin_or_vector).second) { // if "second" is true then "first" is a vector, otherwise it's a point
                    // When snapping a line with a constant vector (constant direction) to a guide or grid line,
                    // then either all points will be perpendicular/tangential or none at all. This is not very useful
                    continue;
                }

                //Geom::Point origin_doc = _snapmanager->getDesktop()->dt2doc((*it_origin_or_vector).first); // "first" contains a Geom::Point, denoting either a point
                Geom::Point origin = (*it_origin_or_vector).first; // "first" contains a Geom::Point, denoting either a point

                // We won't try to snap tangentially; a line being tangential to another line can be achieved by snapping both its endpoints
                // individually to the other line. There's no need to have an explicit tangential snap here, that would be redundant

                if (_snapmanager->snapprefs.getSnapPerp()) { // Find the point that leads to a perpendicular snap
                    Geom::Point const origin_proj = Geom::projection(origin, Geom::Line(p1, p2));
                    Geom::Coord dist = Geom::L2(origin_proj - p.getPoint());
                    if (dist < getSnapperTolerance()) {
                        _addSnappedLinePerpendicularly(isr, origin_proj, dist, p.getSourceType(), p.getSourceNum(), false);
                    }
                }
            }

            // std::cout << " -> distance = " << dist;
        }
        // std::cout << std::endl;
    }
}