Sadly, C++ is not the best language to work with planes. We can at first think that using four floating point values is a good choice as it fits in a SIMD register in SSE and VMX. So we may have a class with a single 128bits member, first three values represent the plane normal and the last a distance ( juste like homogenous coordinate, a plane do not always needs a normalized normal if we only care about the sign of a distance test ).
But when we works with planes to categorize points, sphere, and other volumes, implementing a single plane to point distance function will result to sub-optimal algorithm because most of the time, we know we will test a lot of points against a small number of planes. There is room for optimization !
The problem here has a name, in fact, not the problem, but the way we may represent the information. It's Array Of Structures versus Structure of Arrays ( AOS vs SOA ).
A common exercice in a 3D engine is bounding volume frustum culling ! An usual frustum is made of 6 planes, the right representation is not a Frustum class with a std::array<Plane,6>
member, but most likely, 8 SIMD registers layout as : { P0X, P1X, P2X, P3X }, { P4X, P5X, FREEPLANE1X, FREEPLANE2X }, ...
and so on for Y, Z and D. Not C++, but much better for SIMD programing.
It may also be useful to prefer a SOA reprensation for points too.
Conclusion : The best representation depends on what algorithm and what kind of data set will go thought your planes.