BLT/include/blt/math/vectors.h

/*
 * Created by Brett on 28/02/23.
 * Licensed under GNU General Public License V3.0
 * See LICENSE file for license detail
 */

#ifndef BLT_TESTS_VECTORS_H
#define BLT_TESTS_VECTORS_H

#include <initializer_list>
#include <cmath>
#include <vector>
#include <cstdint>

namespace blt {
    
    constexpr float EPSILON = 0.0001f;
    
    static inline constexpr bool f_equal(float v1, float v2) {
        return v1 >= v2 - EPSILON && v1 <= v2 + EPSILON;
    }

#define MSVC_COMPILER (!defined(__GNUC__) && !defined(__clang__))
    
    
    template<typename T, uint32_t size>
    struct vec {
        private:
            T elements[size];
        public:
            
            vec() {
                for (uint32_t i = 0; i < size; i++)
                    elements[i] = 0;
            }
            
            vec(std::initializer_list<T> args): vec() {
                for (uint32_t i = 0; i < args.size(); i++)
                    elements[i] = *(args.begin() + i);
            }
            
            explicit vec(const T elem[size]) {
                for (uint32_t i = 0; i < size; i++)
                    elements[i] = elem[i];
            }
            
            vec(const vec<T, size>& copy): vec(copy.elements) {}
            
            template<typename o_T, uint32_t o_size>
            explicit vec(const vec<o_T, o_size>& copy) {
                for (uint32_t i = 0; i < std::min(o_size, size); i++)
                    elements[i] = copy[i];
            }
            
            vec& operator=(const vec<T, size>& copy) {
                if (&copy == this)
                    return *this;
                for (uint32_t i = 0; i < size; i++)
                    elements[i] = copy[i];
                return *this;
            }
            
            [[nodiscard]] inline T x() const {
                return elements[0];
            }
            
            [[nodiscard]] inline T y() const {
                static_assert(size > 1);
                return elements[1];
            }
            
            [[nodiscard]] inline T z() const {
                static_assert(size > 2);
                return elements[2];
            }
            
            [[nodiscard]] inline T w() const {
                static_assert(size > 3);
                return elements[3];
            }
            
            [[nodiscard]] inline T magnitude() const {
                T total = 0;
                for (uint32_t i = 0; i < size; i++)
                    total += elements[i] * elements[i];
                return std::sqrt(total);
            }
            
            [[nodiscard]] inline vec<T, size> normalize() const {
                T mag = this->magnitude();
                if (mag == 0)
                    return vec<T, size>(*this);
                return *this / mag;
            }
            
            inline T& operator[](int index) {
                return elements[index];
            }
            
            inline T operator[](int index) const {
                return elements[index];
            }
            
            inline vec<T, size>& operator=(T v) {
                for (uint32_t i = 0; i < size; i++)
                    elements[i] = v;
                return *this;
            }
            
            inline vec<T, size> operator-() {
                vec<T, size> initializer{};
                for (uint32_t i = 0; i < size; i++)
                    initializer[i] = -elements[i];
                return vec<T, size>{initializer};
            }
            
            inline vec<T, size>& operator+=(const vec<T, size>& other) {
                for (uint32_t i = 0; i < size; i++)
                    elements[i] += other[i];
                return *this;
            }
            
            inline vec<T, size>& operator*=(const vec<T, size>& other) {
                for (uint32_t i = 0; i < size; i++)
                    elements[i] *= other[i];
                return *this;
            }
            
            inline vec<T, size>& operator+=(T f) {
                for (uint32_t i = 0; i < size; i++)
                    elements[i] += f;
                return *this;
            }
            
            inline vec<T, size>& operator*=(T f) {
                for (uint32_t i = 0; i < size; i++)
                    elements[i] *= f;
                return *this;
            }
            
            inline vec<T, size>& operator-=(const vec<T, size>& other) {
                for (uint32_t i = 0; i < size; i++)
                    elements[i] -= other[i];
                return *this;
            }
            
            inline vec<T, size>& operator-=(T f) {
                for (uint32_t i = 0; i < size; i++)
                    elements[i] -= f;
                return *this;
            }
            
            /**
             * performs the dot product of left * right
             */
            static inline constexpr T dot(const vec<T, size>& left, const vec<T, size>& right) {
                T dot = 0;
                for (uint32_t i = 0; i < size; i++)
                    dot += left[i] * right[i];
                return dot;
            }
            
            static inline constexpr vec<T, size> cross(
                    const vec<T, size>& left, const vec<T, size>& right
            ) {
                // cross is only defined on vectors of size 3. 2D could be implemented, which is a TODO
                static_assert(size == 3);
                return {left.y() * right.z() - left.z() * right.y(),
                        left.z() * right.x() - left.x() * right.z(),
                        left.x() * right.y() - left.y() * right.x()};
            }
            
            static inline constexpr vec<T, size> project(
                    const vec<T, size>& u, const vec<T, size>& v
            ) {
                T du = dot(u);
                T dv = dot(v);
                return (du / dv) * v;
            }
    };
    
    template<typename T, uint32_t size>
    inline constexpr vec<T, size> operator+(const vec<T, size>& left, const vec<T, size>& right) {
        vec<T, size> initializer{};
        for (uint32_t i = 0; i < size; i++)
            initializer[i] = left[i] + right[i];
        return initializer;
    }
    
    template<typename T, uint32_t size>
    inline constexpr vec<T, size> operator-(const vec<T, size>& left, const vec<T, size>& right) {
        vec<T, size> initializer{};
        for (uint32_t i = 0; i < size; i++)
            initializer[i] = left[i] - right[i];
        return initializer;
    }
    
    template<typename T, uint32_t size>
    inline constexpr vec<T, size> operator+(const vec<T, size>& left, T f) {
        vec<T, size> initializer{};
        for (uint32_t i = 0; i < size; i++)
            initializer[i] = left[i] + f;
        return initializer;
    }
    
    template<typename T, uint32_t size>
    inline constexpr vec<T, size> operator-(const vec<T, size>& left, T f) {
        vec<T, size> initializer{};
        for (uint32_t i = 0; i < size; i++)
            initializer[i] = left[i] + f;
        return initializer;
    }
    
    template<typename T, uint32_t size>
    inline constexpr vec<T, size> operator+(T f, const vec<T, size>& right) {
        vec<T, size> initializer{};
        for (uint32_t i = 0; i < size; i++)
            initializer[i] = f + right[i];
        return initializer;
    }
    
    template<typename T, uint32_t size>
    inline constexpr vec<T, size> operator-(T f, const vec<T, size>& right) {
        vec<T, size> initializer{};
        for (uint32_t i = 0; i < size; i++)
            initializer[i] = f - right[i];
        return initializer;
    }
    
    template<typename T, uint32_t size>
    inline constexpr vec<T, size> operator*(const vec<T, size>& left, const vec<T, size>& right) {
        vec<T, size> initializer{};
        for (uint32_t i = 0; i < size; i++)
            initializer[i] = left[i] * right[i];
        return initializer;
    }
    
    template<typename T, uint32_t size>
    inline constexpr vec<T, size> operator*(const vec<T, size>& left, T f) {
        vec<T, size> initializer{};
        for (uint32_t i = 0; i < size; i++)
            initializer[i] = left[i] * f;
        return initializer;
    }
    
    template<typename T, uint32_t size>
    inline constexpr vec<T, size> operator*(T f, const vec<T, size>& right) {
        vec<T, size> initializer{};
        for (uint32_t i = 0; i < size; i++)
            initializer[i] = f * right[i];
        return initializer;
    }
    
    template<typename T, uint32_t size>
    inline constexpr vec<T, size> operator/(const vec<T, size>& left, T f) {
        vec<T, size> initializer{};
        for (uint32_t i = 0; i < size; i++)
            initializer[i] = left[i] / f;
        return initializer;
    }
    
    template<typename T, uint32_t size>
    inline constexpr bool operator==(const vec<T, size>& left, const vec<T, size>& right) {
        for (uint32_t i = 0; i < size; i++)
            if (left[i] != right[i])
                return false;
        return true;
    }
    
    template<typename T, uint32_t size>
    inline constexpr bool operator&&(const vec<T, size>& left, const vec<T, size>& right) {
        for (uint32_t i = 0; i < size; i++)
            if (!f_equal(left[i], right[i]))
                return false;
        return true;
    }
    
    typedef vec<float, 2> vec2f;
    typedef vec<float, 3> vec3f;
    typedef vec<float, 4> vec4f;
    
    typedef vec<double, 2> vec2d;
    typedef vec<double, 3> vec3d;
    typedef vec<double, 4> vec4d;
    
    typedef vec<int32_t, 2> vec2i;
    typedef vec<int32_t, 3> vec3i;
    typedef vec<int32_t, 4> vec4i;
    
    typedef vec<int64_t, 2> vec2l;
    typedef vec<int64_t, 3> vec3l;
    typedef vec<int64_t, 4> vec4l;
    
    typedef vec<uint32_t, 2> vec2ui;
    typedef vec<uint32_t, 3> vec3ui;
    typedef vec<uint32_t, 4> vec4ui;
    
    typedef vec<uint64_t, 2> vec2ul;
    typedef vec<uint64_t, 3> vec3ul;
    typedef vec<uint64_t, 4> vec4ul;
    
    typedef vec2f vec2;
    typedef vec3f vec3;
    typedef vec4f vec4;
    
    namespace vec_algorithm {
        static inline void findOrthogonalBasis(const vec3& v, vec3& v1, vec3& v2, vec3& v3) {
            v1 = v.normalize();
            
            vec3 arbitraryVector{1, 0, 0};
            if (std::abs(vec3::dot(v, arbitraryVector)) > 0.9) {
                arbitraryVector = vec3{0, 1, 0};
            }
            
            v2 = vec3::cross(v, arbitraryVector).normalize();
            v3 = vec3::cross(v1, v2);
        }
        
        // Gram-Schmidt orthonormalization algorithm
        static inline void gramSchmidt(std::vector<vec3>& vectors) {
            int n = (int) vectors.size();
            std::vector<vec3> basis;
            
            // normalize first vector
            basis.push_back(vectors[0]);
            basis[0] = basis[0].normalize();
            
            // iterate over the rest of the vectors
            for (int i = 1; i < n; ++i) {
                // subtract the projections of the vector onto the previous basis vectors
                vec3 new_vector = vectors[i];
                for (int j = 0; j < i; ++j) {
                    float projection = vec3::dot(vectors[i], basis[j]);
                    new_vector[0] -= projection * basis[j].x();
                    new_vector[1] -= projection * basis[j].y();
                    new_vector[2] -= projection * basis[j].z();
                }
                // normalize the new basis vector
                new_vector = new_vector.normalize();
                basis.push_back(new_vector);
            }
            
            vectors = basis;
        }
    }
}

#endif //BLT_TESTS_VECTORS_H
cleanup math -Moved matrix and vectors into their own file -math.h now includes all math components -math moved into sub-folder -matrix class updated -new vector types added 2023-02-28 23:20:56 -05:00			`/*`
			`* Created by Brett on 28/02/23.`
			`* Licensed under GNU General Public License V3.0`
			`* See LICENSE file for license detail`
			`*/`

			`#ifndef BLT_TESTS_VECTORS_H`
			`#define BLT_TESTS_VECTORS_H`

			`#include <initializer_list>`
			`#include <cmath>`
vector 2023-03-15 15:26:58 -04:00			`#include <vector>`
fix most warnings 2023-04-05 17:21:19 -04:00			`#include <cstdint>`
cleanup math -Moved matrix and vectors into their own file -math.h now includes all math components -math moved into sub-folder -matrix class updated -new vector types added 2023-02-28 23:20:56 -05:00
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`namespace blt {`

equality 2023-03-14 18:20:10 -04:00			`constexpr float EPSILON = 0.0001f;`

			`static inline constexpr bool f_equal(float v1, float v2) {`
			`return v1 >= v2 - EPSILON && v1 <= v2 + EPSILON;`
			`}`
Fix windows! 2023-04-07 00:02:21 -04:00
			`#define MSVC_COMPILER (!defined(__GNUC__) && !defined(__clang__))`
equality 2023-03-14 18:20:10 -04:00
add return statement to matrix class 2023-04-21 21:04:19 -04:00
Fix windows! 2023-04-07 00:02:21 -04:00			`template<typename T, uint32_t size>`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`struct vec {`
hopefully finally fix vectors 2023-04-21 21:39:34 -04:00			`private:`
blt logging 2023-06-26 21:33:42 -04:00			`T elements[size];`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`public:`

			`vec() {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`elements[i] = 0;`
cleanup math -Moved matrix and vectors into their own file -math.h now includes all math components -math moved into sub-folder -matrix class updated -new vector types added 2023-02-28 23:20:56 -05:00			`}`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
			`vec(std::initializer_list<T> args): vec() {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < args.size(); i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`elements[i] = *(args.begin() + i);`
cleanup math -Moved matrix and vectors into their own file -math.h now includes all math components -math moved into sub-folder -matrix class updated -new vector types added 2023-02-28 23:20:56 -05:00			`}`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
hopefully finally fix vectors 2023-04-21 21:39:34 -04:00			`explicit vec(const T elem[size]) {`
			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`elements[i] = elem[i];`
			`}`

hopefully finally fix vectors 2023-04-21 21:39:34 -04:00			`vec(const vec<T, size>& copy): vec(copy.elements) {}`

fix negation 2023-04-21 21:37:11 -04:00			`template<typename o_T, uint32_t o_size>`
hopefully finally fix vectors 2023-04-21 21:39:34 -04:00			`explicit vec(const vec<o_T, o_size>& copy) {`
blt logging 2023-06-26 21:33:42 -04:00			`for (uint32_t i = 0; i < std::min(o_size, size); i++)`
hopefully finally fix vectors 2023-04-21 21:39:34 -04:00			`elements[i] = copy[i];`
			`}`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
fix most warnings 2023-04-05 17:21:19 -04:00			`vec& operator=(const vec<T, size>& copy) {`
			`if (&copy == this)`
			`return *this;`
			`for (uint32_t i = 0; i < size; i++)`
			`elements[i] = copy[i];`
			`return *this;`
			`}`

update vector and fix profile memory usage 2023-03-06 21:29:04 -05:00			`[[nodiscard]] inline T x() const {`
			`return elements[0];`
			`}`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
update vector and fix profile memory usage 2023-03-06 21:29:04 -05:00			`[[nodiscard]] inline T y() const {`
			`static_assert(size > 1);`
			`return elements[1];`
			`}`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
update vector and fix profile memory usage 2023-03-06 21:29:04 -05:00			`[[nodiscard]] inline T z() const {`
			`static_assert(size > 2);`
			`return elements[2];`
			`}`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
update vector and fix profile memory usage 2023-03-06 21:29:04 -05:00			`[[nodiscard]] inline T w() const {`
			`static_assert(size > 3);`
			`return elements[3];`
			`}`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
normalize 2023-03-08 23:49:57 -05:00			`[[nodiscard]] inline T magnitude() const {`
			`T total = 0;`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
normalize 2023-03-08 23:49:57 -05:00			`total += elements[i] * elements[i];`
			`return std::sqrt(total);`
			`}`

const 2023-03-14 18:05:24 -04:00			`[[nodiscard]] inline vec<T, size> normalize() const {`
Fix windows! 2023-04-07 00:02:21 -04:00			`T mag = this->magnitude();`
fix normalize 2023-03-14 18:04:53 -04:00			`if (mag == 0)`
fix most warnings 2023-04-05 17:21:19 -04:00			`return vec<T, size>(*this);`
fix normalize 2023-03-14 18:04:53 -04:00			`return *this / mag;`
normalize 2023-03-08 23:49:57 -05:00			`}`

fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`inline T& operator[](int index) {`
			`return elements[index];`
			`}`

			`inline T operator[](int index) const {`
			`return elements[index];`
			`}`

update vector and fix profile memory usage 2023-03-06 21:29:04 -05:00			`inline vec<T, size>& operator=(T v) {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
update vector and fix profile memory usage 2023-03-06 21:29:04 -05:00			`elements[i] = v;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`return *this;`
			`}`

			`inline vec<T, size> operator-() {`
fix negation 2023-04-21 21:37:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix negation 2023-04-21 21:37:11 -04:00			`initializer[i] = -elements[i];`
			`return vec<T, size>{initializer};`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

			`inline vec<T, size>& operator+=(const vec<T, size>& other) {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`elements[i] += other[i];`
			`return *this;`
			`}`

			`inline vec<T, size>& operator*=(const vec<T, size>& other) {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`elements[i] *= other[i];`
			`return *this;`
			`}`

			`inline vec<T, size>& operator+=(T f) {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`elements[i] += f;`
			`return *this;`
			`}`

			`inline vec<T, size>& operator*=(T f) {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`elements[i] *= f;`
			`return *this;`
			`}`

			`inline vec<T, size>& operator-=(const vec<T, size>& other) {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`elements[i] -= other[i];`
			`return *this;`
			`}`

			`inline vec<T, size>& operator-=(T f) {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`elements[i] -= f;`
			`return *this;`
			`}`

			`/**`
			`* performs the dot product of left * right`
			`*/`
equality 2023-03-14 18:20:10 -04:00			`static inline constexpr T dot(const vec<T, size>& left, const vec<T, size>& right) {`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`T dot = 0;`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`dot += left[i] * right[i];`
			`return dot;`
			`}`
cross product 2023-03-10 17:01:44 -05:00
add return statement to matrix class 2023-04-21 21:04:19 -04:00			`static inline constexpr vec<T, size> cross(`
			`const vec<T, size>& left, const vec<T, size>& right`
			`) {`
cross product 2023-03-10 17:01:44 -05:00			`// cross is only defined on vectors of size 3. 2D could be implemented, which is a TODO`
			`static_assert(size == 3);`
			`return {left.y() * right.z() - left.z() * right.y(),`
			`left.z() * right.x() - left.x() * right.z(),`
			`left.x() * right.y() - left.y() * right.x()};`
			`}`
projection 2023-03-10 17:24:00 -05:00
add return statement to matrix class 2023-04-21 21:04:19 -04:00			`static inline constexpr vec<T, size> project(`
			`const vec<T, size>& u, const vec<T, size>& v`
			`) {`
Fix windows! 2023-04-07 00:02:21 -04:00			`T du = dot(u);`
			`T dv = dot(v);`
projection 2023-03-10 17:24:00 -05:00			`return (du / dv) * v;`
			`}`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`};`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
equality 2023-03-14 18:20:10 -04:00			`inline constexpr vec<T, size> operator+(const vec<T, size>& left, const vec<T, size>& right) {`
add extra templates 2023-04-21 21:35:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`initializer[i] = left[i] + right[i];`
add extra templates 2023-04-21 21:35:11 -04:00			`return initializer;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
equality 2023-03-14 18:20:10 -04:00			`inline constexpr vec<T, size> operator-(const vec<T, size>& left, const vec<T, size>& right) {`
add extra templates 2023-04-21 21:35:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`initializer[i] = left[i] - right[i];`
add extra templates 2023-04-21 21:35:11 -04:00			`return initializer;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
Fix windows! 2023-04-07 00:02:21 -04:00			`inline constexpr vec<T, size> operator+(const vec<T, size>& left, T f) {`
add extra templates 2023-04-21 21:35:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`initializer[i] = left[i] + f;`
add extra templates 2023-04-21 21:35:11 -04:00			`return initializer;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
Fix windows! 2023-04-07 00:02:21 -04:00			`inline constexpr vec<T, size> operator-(const vec<T, size>& left, T f) {`
add extra templates 2023-04-21 21:35:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`initializer[i] = left[i] + f;`
add extra templates 2023-04-21 21:35:11 -04:00			`return initializer;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
Fix windows! 2023-04-07 00:02:21 -04:00			`inline constexpr vec<T, size> operator+(T f, const vec<T, size>& right) {`
add extra templates 2023-04-21 21:35:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`initializer[i] = f + right[i];`
add extra templates 2023-04-21 21:35:11 -04:00			`return initializer;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
Fix windows! 2023-04-07 00:02:21 -04:00			`inline constexpr vec<T, size> operator-(T f, const vec<T, size>& right) {`
add extra templates 2023-04-21 21:35:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`initializer[i] = f - right[i];`
add extra templates 2023-04-21 21:35:11 -04:00			`return initializer;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
equality 2023-03-14 18:20:10 -04:00			`inline constexpr vec<T, size> operator*(const vec<T, size>& left, const vec<T, size>& right) {`
add extra templates 2023-04-21 21:35:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`initializer[i] = left[i] * right[i];`
add extra templates 2023-04-21 21:35:11 -04:00			`return initializer;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
Fix windows! 2023-04-07 00:02:21 -04:00			`inline constexpr vec<T, size> operator*(const vec<T, size>& left, T f) {`
add extra templates 2023-04-21 21:35:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`initializer[i] = left[i] * f;`
add extra templates 2023-04-21 21:35:11 -04:00			`return initializer;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
Fix windows! 2023-04-07 00:02:21 -04:00			`inline constexpr vec<T, size> operator*(T f, const vec<T, size>& right) {`
add extra templates 2023-04-21 21:35:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`initializer[i] = f * right[i];`
add extra templates 2023-04-21 21:35:11 -04:00			`return initializer;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
Fix windows! 2023-04-07 00:02:21 -04:00			`inline constexpr vec<T, size> operator/(const vec<T, size>& left, T f) {`
add extra templates 2023-04-21 21:35:11 -04:00			`vec<T, size> initializer{};`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`initializer[i] = left[i] / f;`
add extra templates 2023-04-21 21:35:11 -04:00			`return initializer;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
equality 2023-03-14 18:20:10 -04:00			`inline constexpr bool operator==(const vec<T, size>& left, const vec<T, size>& right) {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
equality 2023-03-14 18:20:10 -04:00			`if (left[i] != right[i])`
			`return false;`
			`return true;`
			`}`

fix most warnings 2023-04-05 17:21:19 -04:00			`template<typename T, uint32_t size>`
equality 2023-03-14 18:20:10 -04:00			`inline constexpr bool operator&&(const vec<T, size>& left, const vec<T, size>& right) {`
fix most warnings 2023-04-05 17:21:19 -04:00			`for (uint32_t i = 0; i < size; i++)`
equality 2023-03-14 18:20:10 -04:00			`if (!f_equal(left[i], right[i]))`
			`return false;`
			`return true;`
			`}`

fix missing namespace in vectors 2023-02-28 23:31:39 -05:00			`typedef vec<float, 2> vec2f;`
			`typedef vec<float, 3> vec3f;`
			`typedef vec<float, 4> vec4f;`

			`typedef vec<double, 2> vec2d;`
			`typedef vec<double, 3> vec3d;`
			`typedef vec<double, 4> vec4d;`

fix most warnings 2023-04-05 17:21:19 -04:00			`typedef vec<int32_t, 2> vec2i;`
			`typedef vec<int32_t, 3> vec3i;`
			`typedef vec<int32_t, 4> vec4i;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
fix most warnings 2023-04-05 17:21:19 -04:00			`typedef vec<int64_t, 2> vec2l;`
			`typedef vec<int64_t, 3> vec3l;`
			`typedef vec<int64_t, 4> vec4l;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
fix most warnings 2023-04-05 17:21:19 -04:00			`typedef vec<uint32_t, 2> vec2ui;`
			`typedef vec<uint32_t, 3> vec3ui;`
			`typedef vec<uint32_t, 4> vec4ui;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
fix most warnings 2023-04-05 17:21:19 -04:00			`typedef vec<uint64_t, 2> vec2ul;`
			`typedef vec<uint64_t, 3> vec3ul;`
			`typedef vec<uint64_t, 4> vec4ul;`
fix missing namespace in vectors 2023-02-28 23:31:39 -05:00
			`typedef vec2f vec2;`
			`typedef vec3f vec3;`
			`typedef vec4f vec4;`

namespace 2023-03-15 15:24:03 -04:00			`namespace vec_algorithm {`
inline function 2023-03-15 15:25:15 -04:00			`static inline void findOrthogonalBasis(const vec3& v, vec3& v1, vec3& v2, vec3& v3) {`
basis 2023-03-15 15:22:28 -04:00			`v1 = v.normalize();`
add return statement to matrix class 2023-04-21 21:04:19 -04:00
basis 2023-03-15 15:22:28 -04:00			`vec3 arbitraryVector{1, 0, 0};`
			`if (std::abs(vec3::dot(v, arbitraryVector)) > 0.9) {`
			`arbitraryVector = vec3{0, 1, 0};`
			`}`
add return statement to matrix class 2023-04-21 21:04:19 -04:00
basis 2023-03-15 15:22:28 -04:00			`v2 = vec3::cross(v, arbitraryVector).normalize();`
			`v3 = vec3::cross(v1, v2);`
			`}`
add return statement to matrix class 2023-04-21 21:04:19 -04:00
basis 2023-03-15 15:22:28 -04:00			`// Gram-Schmidt orthonormalization algorithm`
inline function 2023-03-15 15:25:15 -04:00			`static inline void gramSchmidt(std::vector<vec3>& vectors) {`
add return statement to matrix class 2023-04-21 21:04:19 -04:00			`int n = (int) vectors.size();`
basis 2023-03-15 15:22:28 -04:00			`std::vector<vec3> basis;`
add return statement to matrix class 2023-04-21 21:04:19 -04:00
basis 2023-03-15 15:22:28 -04:00			`// normalize first vector`
			`basis.push_back(vectors[0]);`
			`basis[0] = basis[0].normalize();`
add return statement to matrix class 2023-04-21 21:04:19 -04:00
basis 2023-03-15 15:22:28 -04:00			`// iterate over the rest of the vectors`
			`for (int i = 1; i < n; ++i) {`
			`// subtract the projections of the vector onto the previous basis vectors`
			`vec3 new_vector = vectors[i];`
			`for (int j = 0; j < i; ++j) {`
			`float projection = vec3::dot(vectors[i], basis[j]);`
			`new_vector[0] -= projection * basis[j].x();`
			`new_vector[1] -= projection * basis[j].y();`
			`new_vector[2] -= projection * basis[j].z();`
			`}`
			`// normalize the new basis vector`
			`new_vector = new_vector.normalize();`
			`basis.push_back(new_vector);`
			`}`
add return statement to matrix class 2023-04-21 21:04:19 -04:00
basis 2023-03-15 15:22:28 -04:00			`vectors = basis;`
			`}`
			`}`
cleanup math -Moved matrix and vectors into their own file -math.h now includes all math components -math moved into sub-folder -matrix class updated -new vector types added 2023-02-28 23:20:56 -05:00			`}`

			`#endif //BLT_TESTS_VECTORS_H`