voxel-raycaster/include/map/Octree.h

#pragma once
#include <SFML/System/Vector3.hpp>
#include <vector>
#include "util.hpp"
#include <tuple>

#define OCT_DIM 32

struct OctState {

	int parent_stack_position = 0;
	uint64_t parent_stack[32] = { 0 };

	uint8_t scale = 0;
	uint8_t idx_stack[32] = { 0 };

	uint64_t current_descriptor;

	// ====== DEBUG =======
	char found = 1;
};


class Octree {
public:

	static const int buffer_size = 100000;

	Octree();
	~Octree() {};

	// Generate an octree from 3D indexed array of char data
	void Generate(char* data, sf::Vector3i dimensions);

	// TODO: Load the octree from a serialized or whatever file
	void Load(std::string octree_file_name);
	
	// I think the best way to transfer all of the data to the GPU. Each buffer will contain a set of blocks
	// except for the trunk buffer. The paper indicates that the cutoff point for the trunk can vary,
	// but since I'm going to do seperate buffers, I'm going to set a hard cutoff for the trunk so we
	// know when to switch buffers

	uint64_t *descriptor_buffer;
	uint64_t descriptor_buffer_position = buffer_size;

	uint32_t *attachment_lookup;
	uint64_t attachment_lookup_position = buffer_size;

	uint64_t *attachment_buffer;
	uint64_t attachment_buffer_position = buffer_size;

	unsigned int trunk_cutoff = 3;
	uint64_t root_index = 0;

	int page_header_counter = 0x8000;

	// Cheat and underflow to get the position
	uint64_t current_info_section_position = ((uint64_t)0)-1;
	

	uint64_t stack_pos = 0x8000;
	uint64_t global_pos = buffer_size - 50;
	
	// With a position and the head of the stack. Traverse down the voxel hierarchy to find
	// the IDX and stack position of the highest resolution (maybe set resolution?) oct
	OctState GetVoxel(sf::Vector3i position);

	void print_block(int block_pos);

    bool Validate(char* data, sf::Vector3i dimensions); 

private:

	std::tuple<uint64_t, uint64_t> GenerationRecursion(
		char* data,					// raw octree data
		sf::Vector3i dimensions,	// dimensions of the raw data
		sf::Vector3i pos,			// position of this generation node
		unsigned int voxel_scale	// the voxel scale of this node
	); 
	
	char get1DIndexedVoxel(char* data, sf::Vector3i dimensions, sf::Vector3i position);

	std::vector<uint64_t> anchor_stack;
	unsigned int octree_voxel_dimension = 32;

	// (X, Y, Z) mask for the idx
	const uint8_t idx_set_x_mask = 0x1;
	const uint8_t idx_set_y_mask = 0x2;
	const uint8_t idx_set_z_mask = 0x4;

	// Mask for checking if valid or leaf
	const uint8_t mask_8[8] = {
		0x1,  0x2,  0x4,  0x8,
		0x10, 0x20, 0x40, 0x80
	};

	// Mask for counting the previous valid bits
	const uint8_t count_mask_8[8]{
		0x1,  0x3,  0x7,  0xF,
		0x1F, 0x3F, 0x7F, 0xFF
	};


	// uint64_t manipulation masks
	const uint64_t child_pointer_mask = 0x0000000000007fff;
	const uint64_t far_bit_mask = 0x8000;
	const uint64_t valid_mask = 0xFF0000;
	const uint64_t leaf_mask = 0xFF000000;
	const uint64_t contour_pointer_mask = 0xFFFFFF00000000;
	const uint64_t contour_mask = 0xFF00000000000000;


	// ======= DEBUG ===========
	int counter = 0;
	std::stringstream output_stream;
	// =========================
};
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`#pragma once`
			`#include <SFML/System/Vector3.hpp>`
			`#include <vector>`
			`#include "util.hpp"`
Refactoring the generation code to the octree, working on the memory management of the various buffers and trunk 8 years ago			`#include <tuple>`
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago
			`#define OCT_DIM 32`

Cleaned up and pulled out some code into Map.cpp in order to start working on the meat of the Correct voxel traversal method as explained in the paper. 7 years ago			`struct OctState {`
Refactoring the generation code to the octree, working on the memory management of the various buffers and trunk 8 years ago
			`int parent_stack_position = 0;`
			`uint64_t parent_stack[32] = { 0 };`

			`uint8_t scale = 0;`
			`uint8_t idx_stack[32] = { 0 };`

			`uint64_t current_descriptor;`

Cleaned up and pulled out some code into Map.cpp in order to start working on the meat of the Correct voxel traversal method as explained in the paper. 7 years ago			`// ====== DEBUG =======`
			`char found = 1;`
Refactoring the generation code to the octree, working on the memory management of the various buffers and trunk 8 years ago			`};`

fiddling around with far pointers, page headers somewhat solid 8 years ago
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`class Octree {`
			`public:`
Refactoring the generation code to the octree, working on the memory management of the various buffers and trunk 8 years ago
			`static const int buffer_size = 100000;`

Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`Octree();`
			`~Octree() {};`

Cleaned up and pulled out some code into Map.cpp in order to start working on the meat of the Correct voxel traversal method as explained in the paper. 7 years ago			`// Generate an octree from 3D indexed array of char data`
Refactoring the generation code to the octree, working on the memory management of the various buffers and trunk 8 years ago			`void Generate(char* data, sf::Vector3i dimensions);`
Cleaned up and pulled out some code into Map.cpp in order to start working on the meat of the Correct voxel traversal method as explained in the paper. 7 years ago
			`// TODO: Load the octree from a serialized or whatever file`
Refactoring the generation code to the octree, working on the memory management of the various buffers and trunk 8 years ago			`void Load(std::string octree_file_name);`

Cleaned up and pulled out some code into Map.cpp in order to start working on the meat of the Correct voxel traversal method as explained in the paper. 7 years ago			`// I think the best way to transfer all of the data to the GPU. Each buffer will contain a set of blocks`
			`// except for the trunk buffer. The paper indicates that the cutoff point for the trunk can vary,`
			`// but since I'm going to do seperate buffers, I'm going to set a hard cutoff for the trunk so we`
			`// know when to switch buffers`
fiddling around with far pointers, page headers somewhat solid 8 years ago
It appears that the new generation algorithm works well. The tree structure is intact and the relative pointers look correct. I'll write a validator when I get a chance 8 years ago			`uint64_t *descriptor_buffer;`
fiddling around with far pointers, page headers somewhat solid 8 years ago			`uint64_t descriptor_buffer_position = buffer_size;`

It appears that the new generation algorithm works well. The tree structure is intact and the relative pointers look correct. I'll write a validator when I get a chance 8 years ago			`uint32_t *attachment_lookup;`
fiddling around with far pointers, page headers somewhat solid 8 years ago			`uint64_t attachment_lookup_position = buffer_size;`

It appears that the new generation algorithm works well. The tree structure is intact and the relative pointers look correct. I'll write a validator when I get a chance 8 years ago			`uint64_t *attachment_buffer;`
fiddling around with far pointers, page headers somewhat solid 8 years ago			`uint64_t attachment_buffer_position = buffer_size;`
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago
Refactoring the generation code to the octree, working on the memory management of the various buffers and trunk 8 years ago			`unsigned int trunk_cutoff = 3;`
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`uint64_t root_index = 0;`
fiddling around with far pointers, page headers somewhat solid 8 years ago
			`int page_header_counter = 0x8000;`
Cleaned up and pulled out some code into Map.cpp in order to start working on the meat of the Correct voxel traversal method as explained in the paper. 7 years ago
			`// Cheat and underflow to get the position`
It appears that the new generation algorithm works well. The tree structure is intact and the relative pointers look correct. I'll write a validator when I get a chance 8 years ago			`uint64_t current_info_section_position = ((uint64_t)0)-1;`
Cleaned up and pulled out some code into Map.cpp in order to start working on the meat of the Correct voxel traversal method as explained in the paper. 7 years ago
fiddling around with far pointers, page headers somewhat solid 8 years ago
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`uint64_t stack_pos = 0x8000;`
Refactoring the generation code to the octree, working on the memory management of the various buffers and trunk 8 years ago			`uint64_t global_pos = buffer_size - 50;`
Cleaned up and pulled out some code into Map.cpp in order to start working on the meat of the Correct voxel traversal method as explained in the paper. 7 years ago
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`// With a position and the head of the stack. Traverse down the voxel hierarchy to find`
			`// the IDX and stack position of the highest resolution (maybe set resolution?) oct`
Cleaned up and pulled out some code into Map.cpp in order to start working on the meat of the Correct voxel traversal method as explained in the paper. 7 years ago			`OctState GetVoxel(sf::Vector3i position);`
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago
			`void print_block(int block_pos);`

Linux build working again, removed the GL_Testing stuff, I'm going to move to Vulkan eventually. Got voxel search working mostly with the new octree changes. Issue with mirroring of voxel data currently 8 years ago			`bool Validate(char* data, sf::Vector3i dimensions);`

Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`private:`

fiddling around with far pointers, page headers somewhat solid 8 years ago			`std::tuple<uint64_t, uint64_t> GenerationRecursion(`
			`char* data, // raw octree data`
			`sf::Vector3i dimensions, // dimensions of the raw data`
			`sf::Vector3i pos, // position of this generation node`
			`unsigned int voxel_scale // the voxel scale of this node`
			`);`
It appears that the new generation algorithm works well. The tree structure is intact and the relative pointers look correct. I'll write a validator when I get a chance 8 years ago
			`char get1DIndexedVoxel(char* data, sf::Vector3i dimensions, sf::Vector3i position);`
Refactoring the generation code to the octree, working on the memory management of the various buffers and trunk 8 years ago
Saving before breaking changes 8 years ago			`std::vector<uint64_t> anchor_stack;`
			`unsigned int octree_voxel_dimension = 32;`

Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`// (X, Y, Z) mask for the idx`
			`const uint8_t idx_set_x_mask = 0x1;`
			`const uint8_t idx_set_y_mask = 0x2;`
			`const uint8_t idx_set_z_mask = 0x4;`

Saving before breaking changes 8 years ago			`// Mask for checking if valid or leaf`
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`const uint8_t mask_8[8] = {`
			`0x1, 0x2, 0x4, 0x8,`
			`0x10, 0x20, 0x40, 0x80`
			`};`

Saving before breaking changes 8 years ago			`// Mask for counting the previous valid bits`
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`const uint8_t count_mask_8[8]{`
			`0x1, 0x3, 0x7, 0xF,`
			`0x1F, 0x3F, 0x7F, 0xFF`
			`};`

Saving before breaking changes 8 years ago
			`// uint64_t manipulation masks`
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`const uint64_t child_pointer_mask = 0x0000000000007fff;`
			`const uint64_t far_bit_mask = 0x8000;`
			`const uint64_t valid_mask = 0xFF0000;`
			`const uint64_t leaf_mask = 0xFF000000;`
			`const uint64_t contour_pointer_mask = 0xFFFFFF00000000;`
			`const uint64_t contour_mask = 0xFF00000000000000;`

Refactoring the generation code to the octree, working on the memory management of the various buffers and trunk 8 years ago
			`// ======= DEBUG ===========`
			`int counter = 0;`
			`std::stringstream output_stream;`
			`// =========================`
Cut down a few of the compiler warnings, refactored the octree into its own file. Refactored all map items into their own subfolder 8 years ago			`};`