umbra/projs/shadow/shadow-engine/shadow-renderer/inc/vlkx/render/Camera.h

#pragma once

#include <optional>
#define GLM_FORCE_RADIAN
#include <glm/glm.hpp>
#include <glm/gtc/matrix_transform.hpp>
#include <functional>
#include <memory>

namespace vlkx {
    class Camera {
    public:

        enum class Input {
            Up, Down, Left, Right
        };
        struct Movement {
            float moveSpeed = 10;
            float turnSpeed = 0.0005f;
            std::optional<glm::vec3> center;
        };

        /**
         * Camera configuration; with defaults.
         * Left and forward vectors are calculated from up, pos and target.
         */
        struct Config {
            float nearPlane = 0.1f;                     // The nearest a vertex can be to the camera before being clipped
            float farPlane = 100;                      // The furthest a vertex can be from the camera before clipped
            glm::vec3 upV{0, 1, 0};        // The vector pointing straight up from the camera
            glm::vec3 pos{0, 0, 0};        // The position of the camera in the world
            glm::vec3 target{1, 0, 0};     // The point the camera is looking at
        };

        Camera(const Camera &) = delete;

        Camera &operator=(const Camera &) = delete;

        virtual ~Camera() = default;

        Camera &move(const glm::vec3 &delta);

        Camera &setPos(const glm::vec3 &pos);

        Camera &up(const glm::vec3 &up);

        Camera &forward(const glm::vec3 &forward);

        glm::mat4 getViewMatrix() const;

        glm::mat4 getSkyboxView() const {
            return glm::mat4{glm::mat3{getViewMatrix()}};
        }

        virtual glm::mat4 getProjMatrix() const = 0;

        const glm::vec3& getPosition() const { return position; }
        const glm::vec3& getUp() const { return upVector; }
        const glm::vec3& getForward() const { return frontVector; }
        const glm::vec3& getRight() const { return rightVector; }

    protected:
        explicit Camera(const Config &conf) : nearPlane(conf.nearPlane), farPlane(conf.farPlane), position(conf.pos),
                                              upVector(glm::normalize(conf.upV)) {
            forward(conf.target - position);
        }

        const float nearPlane;
        const float farPlane;
    private:

        glm::vec3 position;
        glm::vec3 upVector;
        glm::vec3 frontVector;
        glm::vec3 rightVector;

    };

    class PerspectiveCamera : public Camera {
    public:

        struct Frustum {
            float fov;
            float aspect;
        };

        struct RT {
            glm::vec3 up;
            glm::vec3 forward;
            glm::vec3 right;
        };

        PerspectiveCamera(const Camera::Config &conf, const Frustum &frus) :
                Camera(conf), aspectRatio(frus.aspect), fov(frus.fov) {}

        PerspectiveCamera(const PerspectiveCamera &) = delete;

        PerspectiveCamera &operator=(const PerspectiveCamera &) = delete;

        PerspectiveCamera &fieldOfView(float newFov);

        RT getRT() const;

        glm::mat4 getProjMatrix() const override;

        float getFieldOfView() const { return fov; }

        float getAspect() const { return aspectRatio; }

    private:

        const float aspectRatio;
        float fov;
    };

    class OrthographicCamera : public Camera {
    public:
        struct OrthoConfig {
            float width;
            float aspect;
        };

        static OrthoConfig getFullscreenConfig() {
            return {2, 1};
        }

        OrthographicCamera(const Camera::Config &config, const OrthoConfig &ortho)
                : Camera(config), aspectRatio(ortho.aspect), width(ortho.width) {}

        OrthographicCamera(const OrthographicCamera &) = delete;

        OrthographicCamera &operator=(const OrthographicCamera &) = delete;

        OrthographicCamera &setWidth(float width);

        glm::mat4 getProjMatrix() const override;

        float getWidth() const { return width; }

    private:

        const float aspectRatio;
        float width;
    };

    template<typename Type>
    class UserCamera {
    public:
        UserCamera(const UserCamera &) = delete;

        UserCamera &operator=(const UserCamera &) = delete;

        virtual ~UserCamera() = default;

        void setInternal(std::function<void(Type *)> op);

        void setPos(const glm::dvec2 &pos) { cursorPos = pos; }

        void move(double x, double y);

        bool scroll(double delta, double min, double max);

        void press(Camera::Input key, float time);

        void active(bool active) { isActive = active; }

        const Type &getCamera() const { return *camera; }

        UserCamera(const Camera::Movement &movement, std::unique_ptr<Type> &&cam)
                : config(movement), camera(std::move(cam)) {
            reset();
        }

        void reset();

    private:


        const Camera::Movement config;
        bool isActive = false;

        std::unique_ptr<Type> camera;
        glm::dvec2 cursorPos;
        glm::vec3 refForward;
        glm::vec3 refLeft;

        float pitch;
        float yaw;
    };

    class UserPerspectiveCamera : public UserCamera<PerspectiveCamera> {
    public:
        static std::unique_ptr<UserPerspectiveCamera>
        create(const Camera::Movement &movement, const Camera::Config &config,
               const PerspectiveCamera::Frustum &frustum) {
            return std::make_unique<UserPerspectiveCamera>(movement,
                                                           std::make_unique<PerspectiveCamera>(config, frustum));
        }

    protected:
        using UserCamera<PerspectiveCamera>::UserCamera;
    };

    class UserOrthoCamera : public UserCamera<OrthographicCamera> {
    public:
        static std::unique_ptr<UserOrthoCamera> create(const Camera::Movement &movement, const Camera::Config &config,
                                                       const OrthographicCamera::OrthoConfig &ortho) {
            return std::make_unique<UserOrthoCamera>(movement, std::make_unique<OrthographicCamera>(config, ortho));
        }

    protected:
        using UserCamera<OrthographicCamera>::UserCamera;
    };
}
Implement a Vulkan Renderer module (#2) * Starting work on the Vlkx renderer * Fix renderer implementation * Move GLM to FetchContent 2022-07-19 18:41:44 +00:00			`#pragma once`

Replace the renderer with a modern, module version. (#7) * New Vulkan Renderer Module & Associated Fixups 2022-11-26 16:44:16 +00:00			`#include <optional>`
Implement a Vulkan Renderer module (#2) * Starting work on the Vlkx renderer * Fix renderer implementation * Move GLM to FetchContent 2022-07-19 18:41:44 +00:00			`#define GLM_FORCE_RADIAN`
			`#include <glm/glm.hpp>`
			`#include <glm/gtc/matrix_transform.hpp>`
Replace the renderer with a modern, module version. (#7) * New Vulkan Renderer Module & Associated Fixups 2022-11-26 16:44:16 +00:00			`#include <functional>`
Bugfix/merge fixes (#11) 2022-11-29 17:52:54 +00:00			`#include <memory>`
Implement a Vulkan Renderer module (#2) * Starting work on the Vlkx renderer * Fix renderer implementation * Move GLM to FetchContent 2022-07-19 18:41:44 +00:00
Replace the renderer with a modern, module version. (#7) * New Vulkan Renderer Module & Associated Fixups 2022-11-26 16:44:16 +00:00			`namespace vlkx {`
			`class Camera {`
			`public:`
Implement a Vulkan Renderer module (#2) * Starting work on the Vlkx renderer * Fix renderer implementation * Move GLM to FetchContent 2022-07-19 18:41:44 +00:00
Replace the renderer with a modern, module version. (#7) * New Vulkan Renderer Module & Associated Fixups 2022-11-26 16:44:16 +00:00			`enum class Input {`
			`Up, Down, Left, Right`
			`};`
			`struct Movement {`
			`float moveSpeed = 10;`
			`float turnSpeed = 0.0005f;`
			`std::optional<glm::vec3> center;`
			`};`
Implement a Vulkan Renderer module (#2) * Starting work on the Vlkx renderer * Fix renderer implementation * Move GLM to FetchContent 2022-07-19 18:41:44 +00:00
Replace the renderer with a modern, module version. (#7) * New Vulkan Renderer Module & Associated Fixups 2022-11-26 16:44:16 +00:00			`/**`
			`* Camera configuration; with defaults.`
			`* Left and forward vectors are calculated from up, pos and target.`
			`*/`
			`struct Config {`
			`float nearPlane = 0.1f; // The nearest a vertex can be to the camera before being clipped`
			`float farPlane = 100; // The furthest a vertex can be from the camera before clipped`
			`glm::vec3 upV{0, 1, 0}; // The vector pointing straight up from the camera`
			`glm::vec3 pos{0, 0, 0}; // The position of the camera in the world`
			`glm::vec3 target{1, 0, 0}; // The point the camera is looking at`
			`};`
Implement a Vulkan Renderer module (#2) * Starting work on the Vlkx renderer * Fix renderer implementation * Move GLM to FetchContent 2022-07-19 18:41:44 +00:00
Replace the renderer with a modern, module version. (#7) * New Vulkan Renderer Module & Associated Fixups 2022-11-26 16:44:16 +00:00			`Camera(const Camera &) = delete;`
Implement a Vulkan Renderer module (#2) * Starting work on the Vlkx renderer * Fix renderer implementation * Move GLM to FetchContent 2022-07-19 18:41:44 +00:00
Replace the renderer with a modern, module version. (#7) * New Vulkan Renderer Module & Associated Fixups 2022-11-26 16:44:16 +00:00			`Camera &operator=(const Camera &) = delete;`

			`virtual ~Camera() = default;`

			`Camera &move(const glm::vec3 &delta);`

			`Camera &setPos(const glm::vec3 &pos);`

			`Camera &up(const glm::vec3 &up);`

			`Camera &forward(const glm::vec3 &forward);`

			`glm::mat4 getViewMatrix() const;`

			`glm::mat4 getSkyboxView() const {`
			`return glm::mat4{glm::mat3{getViewMatrix()}};`
			`}`

			`virtual glm::mat4 getProjMatrix() const = 0;`

			`const glm::vec3& getPosition() const { return position; }`
			`const glm::vec3& getUp() const { return upVector; }`
			`const glm::vec3& getForward() const { return frontVector; }`
			`const glm::vec3& getRight() const { return rightVector; }`

			`protected:`
			`explicit Camera(const Config &conf) : nearPlane(conf.nearPlane), farPlane(conf.farPlane), position(conf.pos),`
			`upVector(glm::normalize(conf.upV)) {`
			`forward(conf.target - position);`
			`}`

			`const float nearPlane;`
			`const float farPlane;`
			`private:`

			`glm::vec3 position;`
			`glm::vec3 upVector;`
			`glm::vec3 frontVector;`
			`glm::vec3 rightVector;`

			`};`

			`class PerspectiveCamera : public Camera {`
			`public:`

			`struct Frustum {`
			`float fov;`
			`float aspect;`
			`};`

			`struct RT {`
			`glm::vec3 up;`
			`glm::vec3 forward;`
			`glm::vec3 right;`
			`};`

			`PerspectiveCamera(const Camera::Config &conf, const Frustum &frus) :`
			`Camera(conf), aspectRatio(frus.aspect), fov(frus.fov) {}`

			`PerspectiveCamera(const PerspectiveCamera &) = delete;`

			`PerspectiveCamera &operator=(const PerspectiveCamera &) = delete;`

			`PerspectiveCamera &fieldOfView(float newFov);`

			`RT getRT() const;`

			`glm::mat4 getProjMatrix() const override;`

			`float getFieldOfView() const { return fov; }`

			`float getAspect() const { return aspectRatio; }`

			`private:`

			`const float aspectRatio;`
			`float fov;`
			`};`

			`class OrthographicCamera : public Camera {`
			`public:`
			`struct OrthoConfig {`
			`float width;`
			`float aspect;`
			`};`

			`static OrthoConfig getFullscreenConfig() {`
			`return {2, 1};`
			`}`

			`OrthographicCamera(const Camera::Config &config, const OrthoConfig &ortho)`
			`: Camera(config), aspectRatio(ortho.aspect), width(ortho.width) {}`

			`OrthographicCamera(const OrthographicCamera &) = delete;`

			`OrthographicCamera &operator=(const OrthographicCamera &) = delete;`

			`OrthographicCamera &setWidth(float width);`

			`glm::mat4 getProjMatrix() const override;`

			`float getWidth() const { return width; }`

			`private:`

			`const float aspectRatio;`
			`float width;`
			`};`

			`template<typename Type>`
			`class UserCamera {`
			`public:`
			`UserCamera(const UserCamera &) = delete;`

			`UserCamera &operator=(const UserCamera &) = delete;`

			`virtual ~UserCamera() = default;`

			`void setInternal(std::function<void(Type *)> op);`

			`void setPos(const glm::dvec2 &pos) { cursorPos = pos; }`

			`void move(double x, double y);`

			`bool scroll(double delta, double min, double max);`

			`void press(Camera::Input key, float time);`

			`void active(bool active) { isActive = active; }`

			`const Type &getCamera() const { return *camera; }`

			`UserCamera(const Camera::Movement &movement, std::unique_ptr<Type> &&cam)`
			`: config(movement), camera(std::move(cam)) {`
			`reset();`
			`}`

			`void reset();`

			`private:`


			`const Camera::Movement config;`
			`bool isActive = false;`

			`std::unique_ptr<Type> camera;`
			`glm::dvec2 cursorPos;`
			`glm::vec3 refForward;`
			`glm::vec3 refLeft;`

			`float pitch;`
			`float yaw;`
			`};`

			`class UserPerspectiveCamera : public UserCamera<PerspectiveCamera> {`
			`public:`
			`static std::unique_ptr<UserPerspectiveCamera>`
			`create(const Camera::Movement &movement, const Camera::Config &config,`
			`const PerspectiveCamera::Frustum &frustum) {`
			`return std::make_unique<UserPerspectiveCamera>(movement,`
			`std::make_unique<PerspectiveCamera>(config, frustum));`
			`}`

			`protected:`
			`using UserCamera<PerspectiveCamera>::UserCamera;`
			`};`

			`class UserOrthoCamera : public UserCamera<OrthographicCamera> {`
			`public:`
			`static std::unique_ptr<UserOrthoCamera> create(const Camera::Movement &movement, const Camera::Config &config,`
			`const OrthographicCamera::OrthoConfig &ortho) {`
			`return std::make_unique<UserOrthoCamera>(movement, std::make_unique<OrthographicCamera>(config, ortho));`
			`}`

			`protected:`
			`using UserCamera<OrthographicCamera>::UserCamera;`
			`};`
			`}`