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geometry - Converting an svg arc to lines

I am trying to convert an SVG arc to a series of line segments. The background is, that I want to draw an arc using (reportlab)[http://www.reportlab.com/].

The svg gives me these parameters (accoring to here).

rx,ry,x-axis-rotation,large-arc-flag,sweep-flag,dx,dy

Now I need to determine lines following this arcs. But I do not understand how I can convert this to something geometrical more usable.

How would I determine the center of the ellipse arc and its rotation?

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SVG elliptic arcs are really tricky and took me a while to implement it (even following the SVG specs). I ended up with something like this in C++:

//---------------------------------------------------------------------------
class svg_usek  // virtual class for svg_line types
    {
public:
    int pat;                // svg::pat[] index
    virtual void reset(){};
    virtual double getl (double mx,double my){ return 1.0; };
    virtual double getdt(double dl,double mx,double my){ return 0.1; };
    virtual void getpnt(double &x,double &y,double t){};
    virtual void compute(){};
    virtual void getcfg(AnsiString &nam,AnsiString &dtp,AnsiString &val){};
    virtual void setcfg(AnsiString &nam,AnsiString &dtp,AnsiString &val,int &an,int &ad,int &av){};
    };
//---------------------------------------------------------------------------
class svg_ela:public svg_usek       // sweep = 0 arc goes from line p0->p1 CW
    {                               // sweep = 1 arc goes from line p0->p1 CCW
public:                             // larc is unused if |da|=PI
    double x0,y0,x1,y1,a,b,alfa; int sweep,larc;
    double sx,sy,a0,a1,da,ang;      // sx,sy rotated center by ang
    double cx,cy;                   // real center
    void reset() { x0=0; y0=0; x1=0; y1=0; a=0; b=0; alfa=0; sweep=false; larc=false; compute(); }
    double getl (double mx,double my);
//  double getdt(double dl,double mx,double my);
    double getdt(double dl,double mx,double my) { int n; double dt; dt=divide(dl,getl(mx,my)); n=floor(divide(1.0,dt)); if (n<1) n=1; return divide(1.0,n); }
    void getpnt(double &x,double &y,double t);
    void compute();
    void getcfg(AnsiString &nam,AnsiString &dtp,AnsiString &val);
    void setcfg(AnsiString &nam,AnsiString &dtp,AnsiString &val,int &an,int &ad,int &av);
    svg_ela()       {}
    svg_ela(svg_ela& a) { *this=a; }
    ~svg_ela()  {}
    svg_ela* operator = (const svg_ela *a) { *this=*a; return this; }
    //svg_ela* operator = (const svg_ela &a) { ...copy... return this; }
    };
//---------------------------------------------------------------------------
void svg_ela::getpnt(double &x,double &y,double t)
    {
    double c,s,xx,yy;
    t=a0+(da*t);
    xx=sx+a*cos(t);
    yy=sy+b*sin(t);
    c=cos(-ang);
    s=sin(-ang);
    x=xx*c-yy*s;
    y=xx*s+yy*c;
    }
//---------------------------------------------------------------------------
void svg_ela::compute()
    {
    double  ax,ay,bx,by;            // body
    double  vx,vy,l,db;
    int     _sweep;
    double  c,s,e;

    ang=pi-alfa;
    _sweep=sweep;
    if (larc) _sweep=!_sweep;

    e=divide(a,b);
    c=cos(ang);
    s=sin(ang);
    ax=x0*c-y0*s;
    ay=x0*s+y0*c;
    bx=x1*c-y1*s;
    by=x1*s+y1*c;

    ay*=e;                  // transform to circle
    by*=e;

    sx=0.5*(ax+bx);         // mid point between A,B
    sy=0.5*(ay+by);
    vx=(ay-by);
    vy=(bx-ax);
    l=divide(a*a,(vx*vx)+(vy*vy))-0.25;
    if (l<0) l=0;
    l=sqrt(l);
    vx*=l;
    vy*=l;

    if (_sweep)
        {
        sx+=vx;
        sy+=vy;
        }
    else{
        sx-=vx;
        sy-=vy;
        }

    a0=atanxy(ax-sx,ay-sy);
    a1=atanxy(bx-sx,by-sy);
//  ay=divide(ay,e);
//  by=divide(by,e);
    sy=divide(sy,e);


    da=a1-a0;
    if (fabs(fabs(da)-pi)<=_acc_zero_ang)       // half arc is without larc and sweep is not working instead change a0,a1
        {
        db=(0.5*(a0+a1))-atanxy(bx-ax,by-ay);
        while (db<-pi) db+=pi2;     // db<0 CCW ... sweep=1
        while (db>+pi) db-=pi2;     // db>0  CW ... sweep=0
        _sweep=0;
        if ((db<0.0)&&(!sweep)) _sweep=1;
        if ((db>0.0)&&( sweep)) _sweep=1;
        if (_sweep)
            {
//          a=0; b=0;
            if (da>=0.0) a1-=pi2;
            if (da< 0.0) a0-=pi2;
            }
        }
    else if (larc)              // big arc
        {
        if ((da< pi)&&(da>=0.0)) a1-=pi2;
        if ((da>-pi)&&(da< 0.0)) a0-=pi2;
        }
    else{                       // small arc
        if (da>+pi) a1-=pi2;
        if (da<-pi) a0-=pi2;
        }
    da=a1-a0;

    // realny stred
    c=cos(+ang);
    s=sin(+ang);
    cx=sx*c-sy*s;
    cy=sx*s+sy*c;
    }
//---------------------------------------------------------------------------

The atanxy(x,y) is the same as atan2(y,x). You can ignore class svg_usek. Usage of svg_ela is simple first feed the SVG parameters to it:

  • x0,y0 is start point (from previous <path> element)
  • x1,y1 is endpoint (x0+dx,y0+dy)
  • a,b are as yours rx,ry
  • alfa rotation angle [rad] so you need to convert from degrees...
  • sweep,larc are as yours.

And then call svg_ela::compute(); that will compute all variables needed for interpolation. When this initialization is done then to obtain any point from the arc just call svg_ela::getpnt(x,y,t); where x,y is the returned coordinate and t=<0,1> is input parameter. All the other methods are not important for you. To render your ARC just do this:

svg_ela arc; // your initialized arc here
int e; double x,y,t;
arc.getpnt(x,y,0.0);
Canvas->MoveTo(x,y);
for (e=1,t=0.0;e;t+=0.02)
 {
 if (t>=1.0) { t=1.0; e=0; }
 arc.getpnt(x,y,t);
 Canvas->LineTo(x,y);
 }

Do not forget that SVG <g> and <path> can have transform matrices so you should apply them after each svg_ela::getpnt(x,y,t) call.

If you are interested how the stuff works compute() simply:

  1. rotates the space so the ellipse semi-axises are axis aligned.

  2. scale the space so ellipse becomes circle.

  3. compute center point for circle

    center lies on line that is perpendicular to line (x0,y0),(x1,y1) and also lies on its midpoint. The distance is computed by Pytagoras and direction from sweep and larc combination.

  4. scale back to ellipse

  5. rotate back

Now we have real center position so also compute the real endpoint angles relative to it. Now for each point on ellipse it is enough to compute it by standard parametric equation of ellipse and rotate to desired position which is what getpnt(x,y,t) does.

Hope it helps a bit.

Here related QA:

with some images explaining the math behind SVG arcs (using the same variable names as here)


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