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110 lines
4.4 KiB
110 lines
4.4 KiB
namespace Magnum { namespace Physics { |
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/** @page collision-detection Collision detection |
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@brief Collection of simple shapes for high performance collision detection. |
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The essential thing in collision detection is to define a complex object with |
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collection of simple shapes, for which it is easy to detect collisions. These |
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shapes can be either one-, two- or three-dimensional and they can be grouped |
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together using various operations. |
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@tableofcontents |
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@section collision-detection-shape-collection Available shapes |
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@subsection collision-detection-shapes1D One-dimensional shapes |
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- @ref Physics::Point "Physics::Point*D" - @copybrief Physics::Point |
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- @ref Physics::Line "Physics::Line*D" - @copybrief Physics::Line |
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- @ref Physics::LineSegment "Physics::LineSegment*D" - @copybrief Physics::LineSegment |
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Because of numerical instability it's not possible to detect collisions of |
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line and point. Collision of two lines can be detected only in 2D. |
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@subsection collision-detection-shapes2D Two-dimensional shapes |
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- Physics::Plane - @copybrief Physics::Plane |
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@subsection collision-detection-shapes3D Three-dimensional shapes |
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- @ref Physics::Sphere "Physics::Sphere*D" - @copybrief Physics::Sphere |
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- @ref Physics::Capsule "Physics::Capsule*D" - @copybrief Physics::Capsule |
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- @ref Physics::AxisAlignedBox "Physics::AxisAlignedBox*D" - @copybrief Physics::AxisAlignedBox |
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- @ref Physics::Box "Physics::Box*D" - @copybrief Physics::Box |
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The easiest (and most efficient) shape combination for detecting collisions |
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is point and sphere, followed by two spheres. Computing collision of two boxes |
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is least efficient. |
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@section collision-detection-shape-groups Creating hierarchic groups of shapes |
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Shapes can be grouped together using one of three available logical |
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operations: AND, OR and NOT. These operations are mapped to operator&&(), |
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operator||() and operator!(), so for example creating negation of logical OR |
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of line segment and point is simple as this: |
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@code |
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Physics::LineSegment3D segment; |
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Physics::Point3D point; |
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Physics::ShapeGroup3D group = !(segment || point); |
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@endcode |
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@note Logical operations are not the same as set operations -- intersection of |
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two spheres will not generate any collision if they are disjoint, but |
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logical AND will if the object collides with both of them. |
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The resulting object internally stores copies of both shapes, so the original |
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instances can be destroyed. For simple combinations appropriate resulting |
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shape is generated (e.g. logical OR of point and sphere can be only the sphere, |
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if the point lies inside) and stored inside ShapeGroup instead of two original |
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objects. |
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@subsection collision-detection-shape-reference Referencing the shapes for later changes |
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Sometimes you may want to modify the shape based on changes of the object |
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itself. In previous example all the shapes were copied into ShapeGroup, so it |
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was not possible to change their properties such as sphere radius without |
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recreating the group again. You can, however, explicitly pass a reference to |
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original object, so you can change it later: |
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@code |
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Physics::LineSegment3D segment; |
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Physics::Point3D point; |
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Physics::ShapeGroup3D group = !(segment || std::ref(point)); |
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point.setPosition({1.0f, -6.0f, 0.5f}); |
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@endcode |
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Note that passing a reference implies that you must not destroy the original |
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instance (in this case the point). Also because the referenced instance could |
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change, there are no shape optimizations done, unlike above. |
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@subsection collision-detection-shape-simplification Providing simplified version of shape for better performance |
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If there are many shapes grouped together, it might hurt performance of |
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collision detection, because it might be testing collision with more shapes |
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than necessary. It's then good to specify simplified version of such shape, |
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so the collision detection is done on the original if and only if collision |
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was detected with the simplified shape. It is in fact logical AND using |
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operator&&() - the collision is initially detected on first (simplified) shape |
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and then on the other: |
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@code |
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Physics::Sphere3D sphere; |
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Physics::Box3D box; |
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Physics::AxisAlignedBox3D simplified; |
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Physics::ShapeGroup3D object = simplified && (sphere || box); |
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@endcode |
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@section collision-detection-shape-collisions Detecting shape collisions |
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Shape pairs which have collision detection implemented can be tested for |
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collision using operator%(), for example: |
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@code |
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Physics::Point3D point; |
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Physics::Sphere3D sphere; |
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bool collide = point % sphere; |
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@endcode |
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*/ |
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}}}
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