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180 lines
3.6 KiB
180 lines
3.6 KiB
#pragma once
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#include <SFML/System/Vector3.hpp>
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#include <SFML/System/Vector2.hpp>
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#include <SFML/Graphics/Color.hpp>
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#include <iostream>
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#include <list>
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#include <random>
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#include <iostream>
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#include <functional>
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#include <cmath>
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#include "util.hpp"
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#include <deque>
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#include <unordered_map>
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#include <bitset>
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#include <cstring>
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#include <queue>
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#define _USE_MATH_DEFINES
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#include <math.h>
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#define CHUNK_DIM 32
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#define OCT_DIM 8
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struct XYZHasher {
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std::size_t operator()(const sf::Vector3i& k) const {
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return ((std::hash<int>()(k.x)
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^ (std::hash<int>()(k.y) << 1)) >> 1)
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^ (std::hash<int>()(k.z) << 1);
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}
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};
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class Octree {
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public:
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Octree() {
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// initialize the first stack block
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block_stack.push_back(new uint64_t[0x8000]);
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for (int i = 0; i < 0x8000; i++) {
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block_stack.back()[i] = 0;
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}
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};
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~Octree() {};
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std::list<uint64_t*> block_stack;
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uint64_t stack_pos = 0x8000;
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uint64_t global_pos = 0;
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uint64_t copy_to_stack(std::vector<uint64_t> children) {
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// Check for the 15 bit boundry
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if (stack_pos - children.size() > stack_pos) {
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global_pos = stack_pos;
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stack_pos = 0x8000;
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}
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else {
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stack_pos -= children.size();
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}
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// Check for the far bit
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memcpy(&block_stack.front()[stack_pos + global_pos], children.data(), children.size() * sizeof(uint64_t));
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// Return the bitmask encoding the index of that value
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// If we tripped the far bit, allocate a far index to the stack and place
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// it one above preferably.
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// And then shift the far bit to 1
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// If not, shift the index to its correct place
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return stack_pos;
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};
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int get_idx(sf::Vector3i voxel_pos) {
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return 1;
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}
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// This might need to be a recursive function. But it needs to be easily ported to
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// OpenCL C. Might spend some time thinking about how to do this in a linear algorithm
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bool get_voxel(sf::Vector3i position) {
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std::queue<uint64_t> parent_stack;
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uint64_t head = block_stack.front()[stack_pos];
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parent_stack.push(head);
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uint64_t index = cp_to_index(head);
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uint64_t child = block_stack.front()[index];
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return true;
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}
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void print_block(int block_pos) {
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std::stringstream sss;
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for (int i = 0; i < (int)pow(2, 15); i++) {
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PrettyPrintUINT64(block_stack.front()[i], &sss);
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sss << "\n";
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}
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DumpLog(&sss, "raw_data.txt");
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}
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private:
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uint64_t cp_to_index(uint64_t descriptor) {
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const uint64_t cp_mask = 0x0000000000007fff;
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return descriptor & cp_mask;
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};
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//uint64_t is_leaf(uint64_t descriptor, )
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};
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class Map {
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public:
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Map(sf::Vector3i dim);
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void generate_octree();
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void load_unload(sf::Vector3i world_position);
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void load_single(sf::Vector3i world_position);
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sf::Vector3i getDimensions();
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char *list;
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//sf::Vector3i dimensions;
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void setVoxel(sf::Vector3i position, int val);
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char getVoxelFromOctree(sf::Vector3i position);
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void moveLight(sf::Vector2f in);
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sf::Vector3f global_light;
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Octree a;
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protected:
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private:
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// DEBUG
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int counter = 0;
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std::stringstream ss;
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// !DEBUG
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uint64_t generate_children(sf::Vector3i pos, int dim);
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char getVoxel(sf::Vector3i pos);
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char* voxel_data = new char[OCT_DIM * OCT_DIM * OCT_DIM];
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//std::unordered_map<sf::Vector3i, Chunk, XYZHasher> chunk_map;
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double* height_map;
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// 2^k
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int chunk_radius = 6;
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sf::Vector3i world_to_chunk(sf::Vector3i world_coords) {
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return sf::Vector3i(
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world_coords.x / CHUNK_DIM + 1,
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world_coords.y / CHUNK_DIM + 1,
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world_coords.z / CHUNK_DIM + 1
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);
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}
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};
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