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Cleaning up header comments.

This commit is contained in:
Kyle Isom 2019-08-07 01:55:19 +00:00
parent bbaa497a71
commit 48729670c1
2 changed files with 18 additions and 13 deletions
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9
include/wrmath/geom/quaternion.h
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@ -38,7 +38,7 @@ namespace geom {
/// Like vectors, quaternions carry an internal tolerance value ε that is used for /// Like vectors, quaternions carry an internal tolerance value ε that is used for
/// floating point comparisons. The wr::math namespace contains the default values /// floating point comparisons. The wr::math namespace contains the default values
/// used for this; generally, a tolerance of 0.0001 is considered appropriate for /// used for this; generally, a tolerance of 0.0001 is considered appropriate for
/// the uses of this library. MATHJThe tolerance can be explicitly set with the /// the uses of this library. The tolerance can be explicitly set with the
/// setEpsilon method. /// setEpsilon method.
template<typename T> template<typename T>
class Quaternion { class Quaternion {
@ -465,13 +465,6 @@ ShortestSLERP(Quaternion<T> p, Quaternion<T> q, T t)
void Quaternion_SelfTest(); void Quaternion_SelfTest();
// Helpful references for understanding quaternions:
// + "Intro to Quaternions" - https://www.youtube.com/watch?v=fKIss4EV6ME
// 15 minutes into this video I had a more intuitive understanding.
// + "Quaternions and Rotations" - http://graphics.stanford.edu/courses/cs348a-17-winter/Papers/quaternion.pdf
// + "Understanding Quaternions" - http://www.chrobotics.com/library/understanding-quaternions
} // namespace geom } // namespace geom
} // namespace wr } // namespace wr

22
include/wrmath/geom/vector.h
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@ -25,10 +25,13 @@ namespace geom {
/// @brief Vectors represent a direction and magnitude. /// @brief Vectors represent a direction and magnitude.
/// ///
/// Vector provides a standard interface for dimensionless fixed-size /// Vector provides a standard interface for dimensionless fixed-size
/// vectors. Once instantiated, they cannot be modified. Note that while /// vectors. Once instantiated, they cannot be modified.
/// the type is generic, it's intended to be used with floating-point ///
/// types. They can be indexed like arrays, and they contain an epsilon /// Note that while the class is templated, it's intended to be used with
/// value that defines a tolerance for equality. /// floating-point types.
///
/// Vectors can be indexed like arrays, and they contain an epsilon value
/// that defines a tolerance for equality.
template <typename T, size_t N> template <typename T, size_t N>
class Vector { class Vector {
public: public:
@ -314,9 +317,18 @@ public:
/// Support array indexing into vector. /// Support array indexing into vector.
///
/// Note that the values of the vector cannot be modified. Instead,
/// it's required to do something like the following:
///
/// ```
/// Vector3d a {1.0, 2.0, 3.0};
/// Vector3d b {a[0], a[1]*2.0, a[2]};
/// ```
///
/// @param i The component index. /// @param i The component index.
/// @return The value of the vector component at i. /// @return The value of the vector component at i.
T const T&
operator[](size_t i) const operator[](size_t i) const
{ {
return this->arr[i]; return this->arr[i];