COSC-3P93-Project/Step 3/include/engine/math/colliders.h

/*
 * Created by Brett Terpstra 6920201 on 17/10/22.
 * Copyright (c) 2022 Brett Terpstra. All Rights Reserved.
 */

#ifndef STEP_2_COLLIDERS_H
#define STEP_2_COLLIDERS_H

#include "vectors.h"

namespace Raytracing {
    // 3D Axis Aligned Bounding Box for use in a BVH
    struct AABBHitData {
        bool hit;
        PRECISION_TYPE tMin, tMax;
    };
    
    enum AABBAxis {
        X = 0, Y = 1, Z = 2
    };
    
    class AABB {
        protected:
            Vec4 min;
            Vec4 max;
        public:
            AABB(): min({0,0,0}), max({0,0,0}) {};

            AABB(PRECISION_TYPE minX, PRECISION_TYPE minY, PRECISION_TYPE minZ, PRECISION_TYPE maxX, PRECISION_TYPE maxY, PRECISION_TYPE maxZ):
                    min{minX, minY, minZ}, max{maxX, maxY, maxZ} {
            }

            AABB(const Vec4& min, const Vec4& max): min(min), max(max) {}

            // creates an AABB extending of size centered on x, y, z
            AABB(PRECISION_TYPE x, PRECISION_TYPE y, PRECISION_TYPE z, PRECISION_TYPE size):
                    min{x - size, y - size, z - size}, max{x + size, y + size, z + size} {
            }

            // translates the AABB to position x,y,z for world collision detection
            [[nodiscard]] AABB translate(PRECISION_TYPE x, PRECISION_TYPE y, PRECISION_TYPE z) const {
                Vec4 pos = {x, y, z};
                return {min + pos, max + pos};
            }

            [[nodiscard]] AABB translate(const Vec4& vec) const {
                Vec4 pos = {vec.x(), vec.y(), vec.z()};
                return {min + pos, max + pos};
            }

            // returns an expanded version of this AABB is the other AABB is larger then this AABB
            [[nodiscard]] AABB expand(const AABB& other) const {
                // terrible hack
                // a 0 init AABB was having issues when being "expanded" to a place which is larger
                // this should prevent that by side stepping the issue. Which is a TODO:
                if (isEmpty())
                    return other;
                PRECISION_TYPE minX = std::min(min.x(), other.min.x());
                PRECISION_TYPE minY = std::min(min.y(), other.min.y());
                PRECISION_TYPE minZ = std::min(min.z(), other.min.z());
                PRECISION_TYPE maxX = std::max(max.x(), other.max.x());
                PRECISION_TYPE maxY = std::max(max.y(), other.max.y());
                PRECISION_TYPE maxZ = std::max(max.z(), other.max.z());
                return {minX, minY, minZ, maxX, maxY, maxZ};
            }

            [[nodiscard]] inline bool
            intersects(PRECISION_TYPE minX, PRECISION_TYPE minY, PRECISION_TYPE minZ, PRECISION_TYPE maxX, PRECISION_TYPE maxY,
                       PRECISION_TYPE maxZ) const {
                return min.x() <= maxX && max.x() >= minX && min.y() <= maxY && max.y() >= minY && min.z() <= maxZ && max.z() >= minZ;
            }

            [[nodiscard]] inline bool intersects(const Vec4& minV, const Vec4& maxV) const {
                return intersects(minV.x(), minV.y(), minV.z(), maxV.x(), maxV.y(), maxV.z());
            }

            [[nodiscard]] inline bool intersects(const AABB& other) const {
                return intersects(other.min, other.max);
            }
        
            AABBHitData intersects(const Ray& ray, PRECISION_TYPE tmin, PRECISION_TYPE tmax);
            AABBHitData simpleSlabRayAABBMethod(const Ray& ray, PRECISION_TYPE tmin, PRECISION_TYPE tmax);
            [[nodiscard]] Mat4x4 getTransform() const;

            [[nodiscard]] inline bool isInside(PRECISION_TYPE x, PRECISION_TYPE y, PRECISION_TYPE z) const {
                return x >= min.x() && x <= max.x() && y >= min.y() && y <= max.y() && z >= min.z() && z <= max.z();
            }

            [[nodiscard]] inline bool intersectsWithYZ(PRECISION_TYPE y, PRECISION_TYPE z) const {
                return y >= min.y() && y <= max.y() && z >= min.z() && z <= max.z();
            }

            [[nodiscard]] inline bool intersectsWithXZ(PRECISION_TYPE x, PRECISION_TYPE z) const {
                return x >= min.x() && x <= max.x() && z >= min.z() && z <= max.z();
            }

            [[nodiscard]] inline bool intersectsWithXY(PRECISION_TYPE x, PRECISION_TYPE y) const {
                return x >= min.x() && x <= max.x() && y >= min.y() && y <= max.y();
            }

            [[nodiscard]] inline Vec4 getCenter() const {
                return {min.x() + (max.x() - min.x()) * 0.5, min.y() + (max.y() - min.y()) * 0.5, min.z() + (max.z() - min.z()) * 0.5};
            }

            [[nodiscard]] PRECISION_TYPE longestDistanceFromCenter() const;
            // 0 - x
            // 1 - y
            // 2 - z
            [[nodiscard]] int longestAxis() const;
            [[nodiscard]] PRECISION_TYPE longestAxisLength() const;
            [[nodiscard]] std::pair<AABB, AABB> splitByLongestAxis();
            [[nodiscard]] std::pair<AABB, AABB> splitAlongAxis(AABBAxis axis);
            [[nodiscard]] std::pair<AABB, AABB> splitAlongAxis();

            [[nodiscard]] PRECISION_TYPE avgDistanceFromCenter() const;

            // Returns true if the min and max are equal, which tells us this AABB wasn't assigned
            // or was properly created. Either way it isn't responsible to use the AABB in said case.
            [[nodiscard]] inline bool isEmpty() const { return min == max; }

            [[nodiscard]] Vec4 getMin() const { return min; }

            [[nodiscard]] Vec4 getMax() const { return max; }
            [[nodiscard]] inline PRECISION_TYPE getXRadius(const Vec4& center) const {
                return max.x() - center.x();
            }
            [[nodiscard]] inline PRECISION_TYPE getYRadius(const Vec4& center) const {
                return max.y() - center.y();
            }
            [[nodiscard]] inline PRECISION_TYPE getZRadius(const Vec4& center) const {
                return max.z() - center.z();
            }
            

    };
    
    inline bool operator==(const AABB& a, const AABB& b){
        const auto& aMax = a.getMax();
        const auto& aMin = a.getMin();
        const auto& bMax = b.getMax();
        const auto& bMin = b.getMin();
        return aMax == bMax && aMin == bMin;
    }
    
    inline bool operator&=(const AABB& a, const AABB& b) {
        const auto& aMax = a.getMax();
        const auto& aMin = a.getMin();
        const auto& bMax = b.getMax();
        const auto& bMin = b.getMin();
        PRECISION_TYPE E = 0.5;
        return (aMax < bMax + E && aMax > bMax - E && aMin < bMin + E && aMin > bMin - E);
        return aMax == bMax && aMin == bMin;
    }

    inline std::ostream& operator<<(std::ostream& out, const AABB& v) {
        auto max = v.getMax();
        auto min = v.getMin();
        auto center = v.getCenter();
        return out << "AABB {\n\t min{" << min.x() << ", " << min.y() << ", " << min.z() << "},\n\t max{" << max.x() << ", " << max.y()
                   << ", " << max.z() << "},\n\t diff{" << max.x() - min.x() << ", " << max.y() - min.y() << ", " << max.z() - min.z() << "},\n\t "
                   << "center{" << center.x() << ", " << center.y() << ", " << center.z() << "},\n\t "
                   << "radi{" << v.getXRadius(center) << ", " << v.getYRadius(center) << ", " << v.getZRadius(center) << "}\n};\n";
    }
}

#endif //STEP_2_COLLIDERS_H
step 3 2022-10-20 11:30:15 -04:00			`/*`
			`* Created by Brett Terpstra 6920201 on 17/10/22.`
			`* Copyright (c) 2022 Brett Terpstra. All Rights Reserved.`
			`*/`

			`#ifndef STEP_2_COLLIDERS_H`
			`#define STEP_2_COLLIDERS_H`

Working on mutlithreading, push fix for cmake 2022-10-23 23:46:12 -04:00			`#include "vectors.h"`
step 3 2022-10-20 11:30:15 -04:00
			`namespace Raytracing {`
			`// 3D Axis Aligned Bounding Box for use in a BVH`
Raytracer and Debug views now align 2022-11-15 16:23:37 -05:00			`struct AABBHitData {`
			`bool hit;`
BVH works now? AABB intersect equation was wrong. That's been fixed Intersection algorithm has been overhauled. TODO: Code review and cleanup 2022-11-15 20:08:31 -05:00			`PRECISION_TYPE tMin, tMax;`
Raytracer and Debug views now align 2022-11-15 16:23:37 -05:00			`};`

BVH performance results in ods file 2022-11-16 17:34:17 -05:00			`enum AABBAxis {`
			`X = 0, Y = 1, Z = 2`
			`};`

step 3 2022-10-20 11:30:15 -04:00			`class AABB {`
			`protected:`
			`Vec4 min;`
			`Vec4 max;`
			`public:`
BVH Cleanup / Changes. Working on fixing issues with the BVH implementation. Commiting a working changes version. Code has been cleaned up considerably. A proper code review is nessacary in the near future. 2022-11-13 13:03:48 -05:00			`AABB(): min({0,0,0}), max({0,0,0}) {};`
step 3 2022-10-20 11:30:15 -04:00
			`AABB(PRECISION_TYPE minX, PRECISION_TYPE minY, PRECISION_TYPE minZ, PRECISION_TYPE maxX, PRECISION_TYPE maxY, PRECISION_TYPE maxZ):`
			`min{minX, minY, minZ}, max{maxX, maxY, maxZ} {`
			`}`

			`AABB(const Vec4& min, const Vec4& max): min(min), max(max) {}`

			`// creates an AABB extending of size centered on x, y, z`
			`AABB(PRECISION_TYPE x, PRECISION_TYPE y, PRECISION_TYPE z, PRECISION_TYPE size):`
			`min{x - size, y - size, z - size}, max{x + size, y + size, z + size} {`
			`}`

			`// translates the AABB to position x,y,z for world collision detection`
			`[[nodiscard]] AABB translate(PRECISION_TYPE x, PRECISION_TYPE y, PRECISION_TYPE z) const {`
			`Vec4 pos = {x, y, z};`
			`return {min + pos, max + pos};`
			`}`

			`[[nodiscard]] AABB translate(const Vec4& vec) const {`
			`Vec4 pos = {vec.x(), vec.y(), vec.z()};`
			`return {min + pos, max + pos};`
			`}`

			`// returns an expanded version of this AABB is the other AABB is larger then this AABB`
			`[[nodiscard]] AABB expand(const AABB& other) const {`
Fixed AABB Sizing issue. Fixed is a strong word. TODO: I have solved the problem by using isEmpty to tell when it's a fresh AABB and just returing the passed AABB as the new expanded AABB. This feels lazy and I expect it'll cause issues in the future. Plus it isn't truely correct and the context which uses it could just use the first obj AABB since there is only 1 object 2022-11-15 00:53:21 -05:00			`// terrible hack`
			`// a 0 init AABB was having issues when being "expanded" to a place which is larger`
			`// this should prevent that by side stepping the issue. Which is a TODO:`
			`if (isEmpty())`
			`return other;`
step 3 2022-10-20 11:30:15 -04:00			`PRECISION_TYPE minX = std::min(min.x(), other.min.x());`
			`PRECISION_TYPE minY = std::min(min.y(), other.min.y());`
			`PRECISION_TYPE minZ = std::min(min.z(), other.min.z());`
			`PRECISION_TYPE maxX = std::max(max.x(), other.max.x());`
			`PRECISION_TYPE maxY = std::max(max.y(), other.max.y());`
			`PRECISION_TYPE maxZ = std::max(max.z(), other.max.z());`
			`return {minX, minY, minZ, maxX, maxY, maxZ};`
			`}`

			`[[nodiscard]] inline bool`
			`intersects(PRECISION_TYPE minX, PRECISION_TYPE minY, PRECISION_TYPE minZ, PRECISION_TYPE maxX, PRECISION_TYPE maxY,`
			`PRECISION_TYPE maxZ) const {`
			`return min.x() <= maxX && max.x() >= minX && min.y() <= maxY && max.y() >= minY && min.z() <= maxZ && max.z() >= minZ;`
			`}`

			`[[nodiscard]] inline bool intersects(const Vec4& minV, const Vec4& maxV) const {`
			`return intersects(minV.x(), minV.y(), minV.z(), maxV.x(), maxV.y(), maxV.z());`
			`}`

			`[[nodiscard]] inline bool intersects(const AABB& other) const {`
			`return intersects(other.min, other.max);`
			`}`
Raytracer and Debug views now align 2022-11-15 16:23:37 -05:00
			`AABBHitData intersects(const Ray& ray, PRECISION_TYPE tmin, PRECISION_TYPE tmax);`
			`AABBHitData simpleSlabRayAABBMethod(const Ray& ray, PRECISION_TYPE tmin, PRECISION_TYPE tmax);`
BVH now has a source file. 2022-11-16 16:15:08 -05:00			`[[nodiscard]] Mat4x4 getTransform() const;`
step 3 2022-10-20 11:30:15 -04:00
			`[[nodiscard]] inline bool isInside(PRECISION_TYPE x, PRECISION_TYPE y, PRECISION_TYPE z) const {`
			`return x >= min.x() && x <= max.x() && y >= min.y() && y <= max.y() && z >= min.z() && z <= max.z();`
			`}`

			`[[nodiscard]] inline bool intersectsWithYZ(PRECISION_TYPE y, PRECISION_TYPE z) const {`
			`return y >= min.y() && y <= max.y() && z >= min.z() && z <= max.z();`
			`}`

			`[[nodiscard]] inline bool intersectsWithXZ(PRECISION_TYPE x, PRECISION_TYPE z) const {`
			`return x >= min.x() && x <= max.x() && z >= min.z() && z <= max.z();`
			`}`

			`[[nodiscard]] inline bool intersectsWithXY(PRECISION_TYPE x, PRECISION_TYPE y) const {`
			`return x >= min.x() && x <= max.x() && y >= min.y() && y <= max.y();`
			`}`

			`[[nodiscard]] inline Vec4 getCenter() const {`
			`return {min.x() + (max.x() - min.x()) * 0.5, min.y() + (max.y() - min.y()) * 0.5, min.z() + (max.z() - min.z()) * 0.5};`
			`}`

			`[[nodiscard]] PRECISION_TYPE longestDistanceFromCenter() const;`
			`// 0 - x`
			`// 1 - y`
			`// 2 - z`
			`[[nodiscard]] int longestAxis() const;`
			`[[nodiscard]] PRECISION_TYPE longestAxisLength() const;`
			`[[nodiscard]] std::pair<AABB, AABB> splitByLongestAxis();`
BVH performance results in ods file 2022-11-16 17:34:17 -05:00			`[[nodiscard]] std::pair<AABB, AABB> splitAlongAxis(AABBAxis axis);`
Added the ability to recusively load shader files include statements are the only form of file chaining supported. define statements can now be replaced at load time with global variable. 2022-11-20 13:07:45 -05:00			`[[nodiscard]] std::pair<AABB, AABB> splitAlongAxis();`
step 3 2022-10-20 11:30:15 -04:00
			`[[nodiscard]] PRECISION_TYPE avgDistanceFromCenter() const;`

BVH Cleanup / Changes. Working on fixing issues with the BVH implementation. Commiting a working changes version. Code has been cleaned up considerably. A proper code review is nessacary in the near future. 2022-11-13 13:03:48 -05:00			`// Returns true if the min and max are equal, which tells us this AABB wasn't assigned`
			`// or was properly created. Either way it isn't responsible to use the AABB in said case.`
			`[[nodiscard]] inline bool isEmpty() const { return min == max; }`
step 3 2022-10-20 11:30:15 -04:00
			`[[nodiscard]] Vec4 getMin() const { return min; }`

			`[[nodiscard]] Vec4 getMax() const { return max; }`
Raytracing camera now losely follows the debug camera Differences in Viewport size change how the scene is rendered but the position and rotation of the camera is close enough. 2022-11-14 20:44:49 -05:00			`[[nodiscard]] inline PRECISION_TYPE getXRadius(const Vec4& center) const {`
BVH Debug Working + Input Bug Fix Bounding Boxes are now drawn in debug mode. Some debugging is required as the box is slightly offset. GLFW_REPEAT no longer causes keyReleased event. 2022-11-13 14:13:14 -05:00			`return max.x() - center.x();`
			`}`
Raytracing camera now losely follows the debug camera Differences in Viewport size change how the scene is rendered but the position and rotation of the camera is close enough. 2022-11-14 20:44:49 -05:00			`[[nodiscard]] inline PRECISION_TYPE getYRadius(const Vec4& center) const {`
BVH Debug Working + Input Bug Fix Bounding Boxes are now drawn in debug mode. Some debugging is required as the box is slightly offset. GLFW_REPEAT no longer causes keyReleased event. 2022-11-13 14:13:14 -05:00			`return max.y() - center.y();`
			`}`
Raytracing camera now losely follows the debug camera Differences in Viewport size change how the scene is rendered but the position and rotation of the camera is close enough. 2022-11-14 20:44:49 -05:00			`[[nodiscard]] inline PRECISION_TYPE getZRadius(const Vec4& center) const {`
BVH Debug Working + Input Bug Fix Bounding Boxes are now drawn in debug mode. Some debugging is required as the box is slightly offset. GLFW_REPEAT no longer causes keyReleased event. 2022-11-13 14:13:14 -05:00			`return max.z() - center.z();`
			`}`

step 3 2022-10-20 11:30:15 -04:00
			`};`
Fixed BVH infinite recursion 2022-11-15 11:45:50 -05:00
			`inline bool operator==(const AABB& a, const AABB& b){`
			`const auto& aMax = a.getMax();`
			`const auto& aMin = a.getMin();`
			`const auto& bMax = b.getMax();`
			`const auto& bMin = b.getMin();`
			`return aMax == bMax && aMin == bMin;`
			`}`
Added the ability to recusively load shader files include statements are the only form of file chaining supported. define statements can now be replaced at load time with global variable. 2022-11-20 13:07:45 -05:00
			`inline bool operator&=(const AABB& a, const AABB& b) {`
			`const auto& aMax = a.getMax();`
			`const auto& aMin = a.getMin();`
			`const auto& bMax = b.getMax();`
			`const auto& bMin = b.getMin();`
			`PRECISION_TYPE E = 0.5;`
			`return (aMax < bMax + E && aMax > bMax - E && aMin < bMin + E && aMin > bMin - E);`
			`return aMax == bMax && aMin == bMin;`
			`}`
step 3 2022-10-20 11:30:15 -04:00
			`inline std::ostream& operator<<(std::ostream& out, const AABB& v) {`
Raytracing camera now losely follows the debug camera Differences in Viewport size change how the scene is rendered but the position and rotation of the camera is close enough. 2022-11-14 20:44:49 -05:00			`auto max = v.getMax();`
			`auto min = v.getMin();`
			`auto center = v.getCenter();`
			`return out << "AABB {\n\t min{" << min.x() << ", " << min.y() << ", " << min.z() << "},\n\t max{" << max.x() << ", " << max.y()`
			`<< ", " << max.z() << "},\n\t diff{" << max.x() - min.x() << ", " << max.y() - min.y() << ", " << max.z() - min.z() << "},\n\t "`
			`<< "center{" << center.x() << ", " << center.y() << ", " << center.z() << "},\n\t "`
			`<< "radi{" << v.getXRadius(center) << ", " << v.getYRadius(center) << ", " << v.getZRadius(center) << "}\n};\n";`
step 3 2022-10-20 11:30:15 -04:00			`}`
			`}`

			`#endif //STEP_2_COLLIDERS_H`