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#include <SFML/Graphics.hpp>
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#include <iostream>
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#include "Map.h"
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#include <Ray.h>
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#include "util.cpp"
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Ray::Ray(
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Map *map,
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sf::Vector2<int> resolution,
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sf::Vector2<int> pixel,
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sf::Vector3<float> camera_position,
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sf::Vector3<float> ray_direction) {
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this->pixel = pixel;
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this->map = map;
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origin = camera_position;
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direction = ray_direction;
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dimensions = map->getDimensions();
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}
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sf::Color Ray::Cast() {
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// Setup the voxel step based on what direction the ray is pointing
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sf::Vector3<int> voxel_step(1, 1, 1);
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voxel_step.x *= (direction.x > 0) - (direction.x < 0);
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voxel_step.y *= (direction.y > 0) - (direction.y < 0);
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voxel_step.z *= (direction.z > 0) - (direction.z < 0);
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// Setup the voxel coords from the camera origin
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voxel = sf::Vector3<int>(
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static_cast<int>(floorf(origin.x)),
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static_cast<int>(floorf(origin.y)),
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static_cast<int>(floorf(origin.z))
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);
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// Delta T is the units a ray must travel along an axis in order to
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// traverse an integer split
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delta_t = sf::Vector3<float>(
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fabsf(1.0f / direction.x),
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fabsf(1.0f / direction.y),
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fabsf(1.0f / direction.z)
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);
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// Intersection T is the collection of the next intersection points
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// for all 3 axis XYZ.
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intersection_t = sf::Vector3<float>(
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delta_t.x,
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delta_t.y,
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delta_t.z
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);
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int dist = 0;
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int face = -1;
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// X:0, Y:1, Z:2
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// Andrew Woo's raycasting algo
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do {
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if ((intersection_t.x) < (intersection_t.y)) {
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if ((intersection_t.x) < (intersection_t.z)) {
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face = 0;
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voxel.x += voxel_step.x;
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intersection_t.x = intersection_t.x + delta_t.x;
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} else {
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face = 2;
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voxel.z += voxel_step.z;
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intersection_t.z = intersection_t.z + delta_t.z;
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}
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} else {
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if ((intersection_t.y) < (intersection_t.z)) {
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face = 1;
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voxel.y += voxel_step.y;
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intersection_t.y = intersection_t.y + delta_t.y;
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} else {
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face = 2;
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voxel.z += voxel_step.z;
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intersection_t.z = intersection_t.z + delta_t.z;
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}
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}
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// If the ray went out of bounds
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if (voxel.z >= dimensions.z) {
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return sf::Color(172, 245, 251, 200);
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}
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if (voxel.x >= dimensions.x) {
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return sf::Color(172, 245, 251, 200);
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}
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if (voxel.y >= dimensions.x) {
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return sf::Color(172, 245, 251, 200);
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}
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if (voxel.x < 0) {
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return sf::Color(172, 245, 251, 200);
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}
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if (voxel.y < 0) {
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return sf::Color(172, 245, 251, 200);
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}
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if (voxel.z < 0) {
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return sf::Color(172, 245, 251, 200);
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}
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// If we hit a voxel
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int index = voxel.x + dimensions.x * (voxel.y + dimensions.z * voxel.z);
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int voxel_data = map->list[index];
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float alpha = 0;
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if (face == 0) {
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alpha = AngleBetweenVectors(sf::Vector3f(1, 0, 0), map->global_light);
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alpha = static_cast<float>(fmod(alpha, 0.785) * 2);
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} else if (face == 1) {
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alpha = AngleBetweenVectors(sf::Vector3f(0, 1, 0), map->global_light);
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alpha = static_cast<float>(fmod(alpha, 0.785) * 2);
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} else if (face == 2){
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//alpha = 1.57 / 2;
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alpha = AngleBetweenVectors(sf::Vector3f(0, 0, 1), map->global_light);
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alpha = static_cast<float>(fmod(alpha, 0.785) * 2);
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}
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alpha *= 162;
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switch (voxel_data) {
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case 5:
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return sf::Color(255, 120, 255, static_cast<int>(alpha));
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case 6:
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return sf::Color(150, 80, 220, static_cast<int>(alpha));
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default:
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return sf::Color(150, 80, 220, static_cast<int>(alpha));
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}
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dist++;
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} while (dist < 600);
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// Ray timeout color
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return sf::Color::Cyan;
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}
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