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/** @file
* @brief PathVector - a sequence of subpaths
*//*
* Authors:
* Johan Engelen <j.b.c.engelen@alumnus.utwente.nl>
* Krzysztof Kosiński <tweenk.pl@gmail.com>
*
* Copyright 2008-2014 authors
*
* This library is free software; you can redistribute it and/or
* modify it either under the terms of the GNU Lesser General Public
* License version 2.1 as published by the Free Software Foundation
* (the "LGPL") or, at your option, under the terms of the Mozilla
* Public License Version 1.1 (the "MPL"). If you do not alter this
* notice, a recipient may use your version of this file under either
* the MPL or the LGPL.
*
* You should have received a copy of the LGPL along with this library
* in the file COPYING-LGPL-2.1; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
* You should have received a copy of the MPL along with this library
* in the file COPYING-MPL-1.1
*
* The contents of this file are subject to the Mozilla Public License
* Version 1.1 (the "License"); you may not use this file except in
* compliance with the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY
* OF ANY KIND, either express or implied. See the LGPL or the MPL for
* the specific language governing rights and limitations.
*/
#ifndef LIB2GEOM_SEEN_PATHVECTOR_H
#define LIB2GEOM_SEEN_PATHVECTOR_H
#include <boost/concept/requires.hpp>
#include <boost/shared_ptr.hpp>
#include <boost/range/algorithm/equal.hpp>
#include <2geom/forward.h>
#include <2geom/path.h>
#include <2geom/transforms.h>
namespace Geom {
/** @brief Generalized time value in the path vector.
*
* This class exists because mapping the range of multiple curves onto the same interval
* as the curve index, we lose some precision. For instance, a path with 16 curves will
* have 4 bits less precision than a path with 1 curve. If you need high precision results
* in long paths, use this class and related methods instead of the standard methods
* pointAt(), nearestTime() and so on.
*
* @ingroup Paths */
struct PathVectorTime
: public PathTime
, boost::totally_ordered<PathVectorTime>
{
size_type path_index; ///< Index of the path in the vector
PathVectorTime() : PathTime(0, 0), path_index(0) {}
PathVectorTime(size_type _i, size_type _c, Coord _t)
: PathTime(_c, _t), path_index(_i) {}
PathVectorTime(size_type _i, PathTime const &pos)
: PathTime(pos), path_index(_i) {}
bool operator<(PathVectorTime const &other) const {
if (path_index < other.path_index) return true;
if (path_index == other.path_index) {
return static_cast<PathTime const &>(*this) < static_cast<PathTime const &>(other);
}
return false;
}
bool operator==(PathVectorTime const &other) const {
return path_index == other.path_index
&& static_cast<PathTime const &>(*this) == static_cast<PathTime const &>(other);
}
PathTime const &asPathTime() const {
return *static_cast<PathTime const *>(this);
}
};
inline std::ostream &operator<<(std::ostream &os, PathVectorTime const &pvt) {
os << pvt.path_index << ": " << pvt.asPathTime();
return os;
}
typedef Intersection<PathVectorTime> PathVectorIntersection;
typedef PathVectorIntersection PVIntersection; ///< Alias to save typing
template <>
struct ShapeTraits<PathVector> {
typedef PathVectorTime TimeType;
//typedef PathVectorInterval IntervalType;
typedef PathVector AffineClosureType;
typedef PathVectorIntersection IntersectionType;
};
/** @brief Sequence of subpaths.
*
* This class corresponds to the SVG notion of a path:
* a sequence of any number of open or closed contiguous subpaths.
* Unlike Path, this class is closed under boolean operations.
*
* If you want to represent an arbitrary shape, this is the best class to use.
* Shapes with a boundary that is composed of only a single contiguous
* component can be represented with Path instead.
*
* @ingroup Paths
*/
class PathVector
: MultipliableNoncommutative< PathVector, Affine
, MultipliableNoncommutative< PathVector, Translate
, MultipliableNoncommutative< PathVector, Scale
, MultipliableNoncommutative< PathVector, Rotate
, MultipliableNoncommutative< PathVector, HShear
, MultipliableNoncommutative< PathVector, VShear
, MultipliableNoncommutative< PathVector, Zoom
, boost::equality_comparable< PathVector
> > > > > > > >
{
typedef std::vector<Path> Sequence;
public:
typedef PathVectorTime Position;
typedef Sequence::iterator iterator;
typedef Sequence::const_iterator const_iterator;
typedef Sequence::size_type size_type;
typedef Path value_type;
typedef Path &reference;
typedef Path const &const_reference;
typedef Path *pointer;
typedef std::ptrdiff_t difference_type;
PathVector() {}
PathVector(Path const &p)
: _data(1, p)
{}
template <typename InputIter>
PathVector(InputIter first, InputIter last)
: _data(first, last)
{}
/// Check whether the vector contains any paths.
bool empty() const { return _data.empty(); }
/// Get the number of paths in the vector.
size_type size() const { return _data.size(); }
/// Get the total number of curves in the vector.
size_type curveCount() const;
iterator begin() { return _data.begin(); }
iterator end() { return _data.end(); }
const_iterator begin() const { return _data.begin(); }
const_iterator end() const { return _data.end(); }
Path &operator[](size_type index) {
return _data[index];
}
Path const &operator[](size_type index) const {
return _data[index];
}
Path &at(size_type index) {
return _data.at(index);
}
Path const &at(size_type index) const {
return _data.at(index);
}
Path &front() { return _data.front(); }
Path const &front() const { return _data.front(); }
Path &back() { return _data.back(); }
Path const &back() const { return _data.back(); }
/// Append a path at the end.
void push_back(Path const &path) {
_data.push_back(path);
}
/// Remove the last path.
void pop_back() {
_data.pop_back();
}
iterator insert(iterator pos, Path const &p) {
return _data.insert(pos, p);
}
template <typename InputIter>
void insert(iterator out, InputIter first, InputIter last) {
_data.insert(out, first, last);
}
/// Remove a path from the vector.
iterator erase(iterator i) {
return _data.erase(i);
}
/// Remove a range of paths from the vector.
iterator erase(iterator first, iterator last) {
return _data.erase(first, last);
}
/// Remove all paths from the vector.
void clear() { _data.clear(); }
/** @brief Change the number of paths.
* If the vector size increases, it is passed with paths that contain only
* a degenerate closing segment at (0,0). */
void resize(size_type n) { _data.resize(n); }
/** @brief Reverse the direction of paths in the vector.
* @param reverse_paths If this is true, the order of paths is reversed as well;
* otherwise each path is reversed, but their order in the
* PathVector stays the same */
void reverse(bool reverse_paths = true);
/** @brief Get a new vector with reversed direction of paths.
* @param reverse_paths If this is true, the order of paths is reversed as well;
* otherwise each path is reversed, but their order in the
* PathVector stays the same */
PathVector reversed(bool reverse_paths = true) const;
/// Get the range of allowed time values.
Interval timeRange() const {
Interval ret(0, curveCount()); return ret;
}
/** @brief Get the first point in the first path of the vector.
* This method will throw an exception if the vector doesn't contain any paths. */
Point initialPoint() const {
return _data.front().initialPoint();
}
/** @brief Get the last point in the last path of the vector.
* This method will throw an exception if the vector doesn't contain any paths. */
Point finalPoint() const {
return _data.back().finalPoint();
}
Path &pathAt(Coord t, Coord *rest = NULL);
Path const &pathAt(Coord t, Coord *rest = NULL) const;
Curve const &curveAt(Coord t, Coord *rest = NULL) const;
Coord valueAt(Coord t, Dim2 d) const;
Point pointAt(Coord t) const;
Path &pathAt(PathVectorTime const &pos) {
return const_cast<Path &>(static_cast<PathVector const*>(this)->pathAt(pos));
}
Path const &pathAt(PathVectorTime const &pos) const {
return at(pos.path_index);
}
Curve const &curveAt(PathVectorTime const &pos) const {
return at(pos.path_index).at(pos.curve_index);
}
Point pointAt(PathVectorTime const &pos) const {
return at(pos.path_index).at(pos.curve_index).pointAt(pos.t);
}
Coord valueAt(PathVectorTime const &pos, Dim2 d) const {
return at(pos.path_index).at(pos.curve_index).valueAt(pos.t, d);
}
OptRect boundsFast() const;
OptRect boundsExact() const;
template <typename T>
BOOST_CONCEPT_REQUIRES(((TransformConcept<T>)), (PathVector &))
operator*=(T const &t) {
if (empty()) return *this;
for (iterator i = begin(); i != end(); ++i) {
*i *= t;
}
return *this;
}
bool operator==(PathVector const &other) const {
return boost::range::equal(_data, other._data);
}
void snapEnds(Coord precision = EPSILON);
std::vector<PVIntersection> intersect(PathVector const &other, Coord precision = EPSILON) const;
/** @brief Determine the winding number at the specified point.
* This is simply the sum of winding numbers for constituent paths. */
int winding(Point const &p) const;
boost::optional<PathVectorTime> nearestTime(Point const &p, Coord *dist = NULL) const;
std::vector<PathVectorTime> allNearestTimes(Point const &p, Coord *dist = NULL) const;
std::vector<Point> nodes() const;
private:
PathVectorTime _factorTime(Coord t) const;
Sequence _data;
};
inline OptRect bounds_fast(PathVector const &pv) { return pv.boundsFast(); }
inline OptRect bounds_exact(PathVector const &pv) { return pv.boundsExact(); }
std::ostream &operator<<(std::ostream &out, PathVector const &pv);
} // end namespace Geom
#endif // LIB2GEOM_SEEN_PATHVECTOR_H
/*
Local Variables:
mode:c++
c-file-style:"stroustrup"
c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +))
indent-tabs-mode:nil
fill-column:99
End:
*/
// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:fileencoding=utf-8:textwidth=99 :
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