137 lines
4.3 KiB
Rust
137 lines
4.3 KiB
Rust
#![allow(non_camel_case_types)]
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#![allow(non_snake_case)]
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#![allow(dead_code)]
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use cgmath;
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use cgmath::vec3;
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use cgmath::prelude::*;
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type Point3 = cgmath::Point3<f32>;
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type Vector3 = cgmath::Vector3<f32>;
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type Matrix4 = cgmath::Matrix4<f32>;
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// Defines several possible options for camera movement. Used as abstraction to stay away from window-system specific input methods
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#[derive(PartialEq, Clone, Copy)]
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pub enum Camera_Movement {
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FORWARD,
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BACKWARD,
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LEFT,
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RIGHT,
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}
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use self::Camera_Movement::*;
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// Default camera values
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const YAW: f32 = -90.0;
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const PITCH: f32 = -20.0;
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const SPEED: f32 = 2.5;
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const SENSITIVTY: f32 = 0.1;
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const ZOOM: f32 = 45.0;
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pub struct Camera {
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// Camera Attributes
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pub Position: Point3,
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pub Front: Vector3,
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pub Up: Vector3,
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pub Right: Vector3,
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pub WorldUp: Vector3,
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// Euler Angles
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pub Yaw: f32,
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pub Pitch: f32,
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// Camera options
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pub MovementSpeed: f32,
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pub MouseSensitivity: f32,
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pub Zoom: f32,
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}
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impl Default for Camera {
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fn default() -> Camera {
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let mut camera = Camera {
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Position: Point3::new(0.0, 0.0, 0.0),
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Front: vec3(0.0, 0.0, -1.0),
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Up: Vector3::zero(), // initialized later
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Right: Vector3::zero(), // initialized later
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WorldUp: Vector3::unit_y(),
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Yaw: YAW,
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Pitch: PITCH,
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MovementSpeed: SPEED,
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MouseSensitivity: SENSITIVTY,
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Zoom: ZOOM,
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};
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camera.updateCameraVectors();
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camera
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}
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}
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impl Camera {
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/// Returns the view matrix calculated using Eular Angles and the LookAt Matrix
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pub fn GetViewMatrix(&self) -> Matrix4 {
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Matrix4::look_at(self.Position, self.Position + self.Front, self.Up)
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}
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/// Processes input received from any keyboard-like input system. Accepts input parameter in the form of camera defined ENUM (to abstract it from windowing systems)
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pub fn ProcessKeyboard(&mut self, direction: Camera_Movement, deltaTime: f32) {
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let velocity = self.MovementSpeed * deltaTime;
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if direction == FORWARD {
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self.Position += self.Front * velocity;
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}
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if direction == BACKWARD {
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self.Position += -(self.Front * velocity);
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}
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if direction == LEFT {
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self.Position += -(self.Right * velocity);
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}
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if direction == RIGHT {
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self.Position += self.Right * velocity;
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}
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}
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/// Processes input received from a mouse input system. Expects the offset value in both the x and y direction.
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pub fn ProcessMouseMovement(&mut self, mut xoffset: f32, mut yoffset: f32, constrainPitch: bool) {
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xoffset *= self.MouseSensitivity;
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yoffset *= self.MouseSensitivity;
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self.Yaw += xoffset;
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self.Pitch += yoffset;
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// Make sure that when pitch is out of bounds, screen doesn't get flipped
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if constrainPitch {
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if self.Pitch > 89.0 {
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self.Pitch = 89.0;
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}
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if self.Pitch < -89.0 {
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self.Pitch = -89.0;
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}
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}
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// Update Front, Right and Up Vectors using the updated Eular angles
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self.updateCameraVectors();
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}
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// Processes input received from a mouse scroll-wheel event. Only requires input on the vertical wheel-axis
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pub fn ProcessMouseScroll(&mut self, yoffset: f32) {
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if self.Zoom >= 1.0 && self.Zoom <= 45.0 {
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self.Zoom -= yoffset;
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}
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if self.Zoom <= 1.0 {
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self.Zoom = 1.0;
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}
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if self.Zoom >= 45.0 {
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self.Zoom = 45.0;
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}
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}
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/// Calculates the front vector from the Camera's (updated) Eular Angles
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fn updateCameraVectors(&mut self) {
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// Calculate the new Front vector
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let front = Vector3 {
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x: self.Yaw.to_radians().cos() * self.Pitch.to_radians().cos(),
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y: self.Pitch.to_radians().sin(),
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z: self.Yaw.to_radians().sin() * self.Pitch.to_radians().cos(),
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};
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self.Front = front.normalize();
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// Also re-calculate the Right and Up vector
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self.Right = self.Front.cross(self.WorldUp).normalize(); // Normalize the vectors, because their length gets closer to 0 the more you look up or down which results in slower movement.
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self.Up = self.Right.cross(self.Front).normalize();
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}
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}
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