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Im playing around with the new geometry library made available in boost 1.47 and wanted to know if it is possible to define a 2D polar system. In the header files and documentation I found a definition for a polar system but when trying to use it with the sample code below I'm getting compilation errors:

using namespace boost;

typedef geometry::cs::polar<geometry::radian> geometry_type;  
typedef geometry::model::point<double, 2, geometry_type> point_type;

const double PI = math::constants::pi<double>();

point_type p1(0, 0);
point_type p2(1, PI/2);

double dist = geometry::distance(p1, p2); // COMPILATION FAILS HERE

in VC2010 I get: "error C2039: 'type' : is not a member of 'boost::geometry::traits::cs_tag'" when trying to compile the distance function above.

This is the definition for the polar system extracted from the boost header files (boost/geometry/core/cs.hpp):

\brief Polar coordinate system
\details Defines the polar coordinate system "in which each point
    on a plane is determined by an angle and a distance"
\see http://en.wikipedia.org/wiki/Polar_coordinates
\ingroup cs
template<typename DegreeOrRadian>
struct polar
    typedef DegreeOrRadian units;

But I think that the definition is incomplete since "polar" is not mentioned anywhere else. Am I supposed to define a distance strategy and other needed traits all by myself for a simple 2D polar system?

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2 Answers 2

up vote 3 down vote accepted

Well, answering my own question (hope that this is ok) after a bit more of research: It seems that I got the wrong idea about coordinate systems in the geometry library's sense. The different coordinate systems seem to specify the intrinsic geometry like the surface of a sphere where for example the distance between two points are not computed in a cartesian way. What I wanted to accomplish (use a polar system) can be done by defining a new point class that takes the polar coordinates and converts them to X and Y coordinates. After registering the new point class with the BOOST_GEOMETRY_REGISTER_POINT_2D macro (like in the boost samples) and using a normal cartesian system all geometry algorithms work as expected.

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Edit: I accepted my own answer since I didn't get any other replies on the issue –  floyd73 Aug 10 '11 at 13:53

The trouble with type traits is you have to write your own specialisation for each client type.

(This is not true of the standard <traits> library in C++0x.)

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Yeah, but I would expect that something as simple as a 2D-polar system would be included by default in a generic geometry library.. Since there is a definition of a polar system in the headers it seems to me that the intention was to include it but that it is still incomplete. –  floyd73 Jul 22 '11 at 11:27

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