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#include "RayCaster.h"
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#include <util.hpp>
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#include <Ray.h>
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RayCaster::RayCaster(
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Map *map,
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sf::Vector3<int> map_dimensions,
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sf::Vector2<int> viewport_resolution ) {
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// Override values
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//this.map_dimensions = new Vector3<int> (50, 50, 50);
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//this.resolution = new Vector2<int> (200, 200);
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//this.camera_direction = new Vector3<float> (1f, 0f, .8f);
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//this.camera_position = new Vector3<float> (1, 10, 10);
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this->map_dimensions = map_dimensions;
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this->map = map;
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resolution = viewport_resolution;
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image = new sf::Color[resolution.x, resolution.y];
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}
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RayCaster::~RayCaster() {
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}
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sf::Color* RayCaster::CastRays(sf::Vector3<float> camera_direction, sf::Vector3<float> camera_position) {
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// Setup the camera for this cast
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this->camera_direction = camera_direction;
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camera_direction_cartesian = Normalize(SphereToCart(camera_direction));
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this->camera_position = camera_position;
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// The radian increment each ray is spaced from one another
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double y_increment_radians = DegreesToRadians(40.0 / resolution.y);
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double x_increment_radians = DegreesToRadians(50.0 / resolution.x);
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// A reference to the positive X axis as our base viewport point
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sf::Vector3f base_direction(1, 0, 0);
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// Start the loop at the bottom left, scan right and work up
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for (int x = 0; x < resolution.x / 2; x++) {
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for (int y = -resolution.y / 2; y < resolution.y / 2; y++) {
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// The direction the final ray will point.
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// First take a reference to the base direction to setup the viewport
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//Vector3<float> ray_direction = new Vector3<float> (base_direction);
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// New method to cast rays using the original intended Spherical coords
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// instead of that malarchy with converting them to cartesian from the formula
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sf::Vector3f ray_direction(
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camera_direction.x + 1.0f,
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camera_direction.y + (float)(y_increment_radians * y),
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camera_direction.z + (float)(x_increment_radians * x)
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);
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sf::Vector3f ray_cartesian = Normalize(SphereToCart(ray_direction));
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sf::Vector3f cam_cartesian = Normalize(SphereToCart(camera_direction));
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if ((y == -99 || y == 0 || y == 99) && (/*x == 99 || x == 0 || */x == -99)) {
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std::cout << "X : " << x << "\n";
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std::cout << "Y : " << y << "\n";
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std::cout << ray_direction.x << " : " << ray_direction.y << " : " << ray_direction.z << "\n";
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}
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// Setup the ray
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Ray r(map, resolution, sf::Vector2i(x, y), camera_position, ray_direction);
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// Cast it
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///image[x + 100, y + 100] = r.Cast();
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}
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}
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return image;
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}
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