Offset left (x0, y0);
Offset right (x1, y1);
Offset dir = (right - left).direction ();
- Direction d = DOWN;
- do
+ for (DOWN_and_UP (d))
{
Offset outward = d * get_normal ((thick / 2) * dir);
Offset inter_l = left + outward;
}
}
}
- while (flip (&d) != DOWN);
if (thick > 0.0)
{
Offset ep (cos (end) * x_rad, sin (end) * y_rad);
//////////////////////
Drul_array<vector<Offset> > points;
- Direction d = DOWN;
int quantization = max (1, (int) (((x_rad * trans.xx) + (y_rad * trans.yy)) * M_PI / QUANTIZATION_UNIT));
- do
+ for (DOWN_and_UP (d))
{
for (vsize i = 0; i < 1 + (vsize) quantization; i++)
{
points[d].push_back (inter);
}
}
- while (flip (&d) != DOWN);
for (vsize i = 0; i < points[DOWN].size () - 1; i++)
{
Box b;
- do
+ for (DOWN_and_UP (d))
{
b.add_point (points[d][i]);
b.add_point (points[d][i + 1]);
}
- while (flip (&d) != DOWN);
boxes.push_back (b);
}
pango_matrix_transform_point (&trans, &temp3[X_AXIS], &temp3[Y_AXIS]);
//////////////////////
Drul_array<vector<Offset> > points;
- Direction d = DOWN;
int quantization = int (((temp1 - temp0).length ()
+ (temp2 - temp1).length ()
+ (temp3 - temp2).length ())
/ QUANTIZATION_UNIT);
- do
+ for (DOWN_and_UP (d))
{
Offset first = curve.control_[0]
+ d * get_normal ((th / 2) * curve.dir_at_point (0.0));
pango_matrix_transform_point (&trans, &last[X_AXIS], &last[Y_AXIS]);
points[d].push_back (last);
}
- while (flip (&d) != DOWN);
for (vsize i = 0; i < points[DOWN].size () - 1; i++)
{
Box b;
- do
+ for (DOWN_and_UP (d))
{
b.add_point (points[d][i]);
b.add_point (points[d][i + 1]);
}
- while (flip (&d) != DOWN);
boxes.push_back (b);
}