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common.hpp
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common.hpp
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// ================================================================================================
// -*- C++ -*-
// File: vectormath/common.hpp
// Author: Guilherme R. Lampert
// Created on: 30/12/16
// Brief: Extra helper functions added to the Vectormath library.
// ================================================================================================
#ifndef VECTORMATH_COMMON_HPP
#define VECTORMATH_COMMON_HPP
namespace Vectormath
{
inline float * toFloatPtr(Point2 & p) { return reinterpret_cast<float *>(&p); } // 2 floats - default alignment
inline float * toFloatPtr(Point3 & p) { return reinterpret_cast<float *>(&p); } // 4 floats - 16 bytes aligned
inline float * toFloatPtr(Vector2 & v) { return reinterpret_cast<float *>(&v); } // 2 floats - default alignment
inline float * toFloatPtr(Vector3 & v) { return reinterpret_cast<float *>(&v); } // 4 floats - 16 bytes aligned
inline float * toFloatPtr(Vector4 & v) { return reinterpret_cast<float *>(&v); } // 4 floats - 16 bytes aligned
inline float * toFloatPtr(Quat & q) { return reinterpret_cast<float *>(&q); } // 4 floats - 16 bytes aligned
inline float * toFloatPtr(Matrix3 & m) { return reinterpret_cast<float *>(&m); } // 12 floats - 16 bytes aligned
inline float * toFloatPtr(Matrix4 & m) { return reinterpret_cast<float *>(&m); } // 16 floats - 16 bytes aligned
inline float * toFloatPtr(Transform3 & t) { return reinterpret_cast<float *>(&t); } // 16 floats - 16 bytes aligned
inline const float * toFloatPtr(const Point2 & p) { return reinterpret_cast<const float *>(&p); }
inline const float * toFloatPtr(const Point3 & p) { return reinterpret_cast<const float *>(&p); }
inline const float * toFloatPtr(const Vector2 & v) { return reinterpret_cast<const float *>(&v); }
inline const float * toFloatPtr(const Vector3 & v) { return reinterpret_cast<const float *>(&v); }
inline const float * toFloatPtr(const Vector4 & v) { return reinterpret_cast<const float *>(&v); }
inline const float * toFloatPtr(const Quat & q) { return reinterpret_cast<const float *>(&q); }
inline const float * toFloatPtr(const Matrix3 & m) { return reinterpret_cast<const float *>(&m); }
inline const float * toFloatPtr(const Matrix4 & m) { return reinterpret_cast<const float *>(&m); }
inline const float * toFloatPtr(const Transform3 & t) { return reinterpret_cast<const float *>(&t); }
// Shorthand to discard the last element of a Vector4 and get a Point3.
inline Point3 toPoint3(const Vector4 & v4)
{
return Point3(v4[0], v4[1], v4[2]);
}
// Convert from world (global) coordinates to local model coordinates.
// Input matrix must be the inverse of the model matrix, e.g.: 'inverse(modelMatrix)'.
inline Point3 worldPointToModel(const Matrix4 & invModelToWorldMatrix, const Point3 & point)
{
return toPoint3(invModelToWorldMatrix * point);
}
// Makes a plane projection matrix that can be used for simple object shadow effects.
// The W component of the light position vector should be 1 for a point light and 0 for directional.
inline Matrix4 makeShadowMatrix(const Vector4 & plane, const Vector4 & light)
{
Matrix4 shadowMat;
const auto dot = (plane[0] * light[0]) +
(plane[1] * light[1]) +
(plane[2] * light[2]) +
(plane[3] * light[3]);
shadowMat[0][0] = dot - (light[0] * plane[0]);
shadowMat[1][0] = - (light[0] * plane[1]);
shadowMat[2][0] = - (light[0] * plane[2]);
shadowMat[3][0] = - (light[0] * plane[3]);
shadowMat[0][1] = - (light[1] * plane[0]);
shadowMat[1][1] = dot - (light[1] * plane[1]);
shadowMat[2][1] = - (light[1] * plane[2]);
shadowMat[3][1] = - (light[1] * plane[3]);
shadowMat[0][2] = - (light[2] * plane[0]);
shadowMat[1][2] = - (light[2] * plane[1]);
shadowMat[2][2] = dot - (light[2] * plane[2]);
shadowMat[3][2] = - (light[2] * plane[3]);
shadowMat[0][3] = - (light[3] * plane[0]);
shadowMat[1][3] = - (light[3] * plane[1]);
shadowMat[2][3] = - (light[3] * plane[2]);
shadowMat[3][3] = dot - (light[3] * plane[3]);
return shadowMat;
}
} // namespace Vectormath
#endif // VECTORMATH_COMMON_HPP