refactor(main): updated sources

author: nasr <nsrddyn@gmail.com> 2026-03-16 20:09:38 +0000
committer: nasr <nsrddyn@gmail.com> 2026-03-16 20:09:38 +0000
commit: e0722ef001c4cc41827dd83dad13d42d342d03ae (patch)
tree: f6d0252a1fc603cb5717da814ac64efb80c54cc2 /source/btree_impl.h
parent: 180ccc84aac07c7bee2b09a6e07f7406908409b9 (diff)
1 files changed, 165 insertions, 0 deletions
diff --git a/source/btree_impl.h b/source/btree_impl.h
new file mode 100644
index 0000000..8eb0723
--- /dev/null
+++ b/source/btree_impl.h
@@ -0,0 +1,165 @@
+/* single header b-tree implementation by Abdellah El Morabit */
+#ifndef B_TREE_H
+#define B_TREE_H
+// maximum height of the tree the lower the lower the lower amount
+// of disk reads which translates into faster?
+#if 0
+global_variable read_only s16 B_TREE_ORDER = 4;
+#endif
+#define B_TREE_ORDER  4
+//- NOTE(nasr): defining a key to improve sorting
+//  i think saying that a key is a combination of the column + row is a good way of appraoching this
+typedef struct key key;
+struct key
+{
+    string8 header;
+    s32     row;
+};
+typedef struct b_tree_node b_tree_node;
+struct b_tree_node
+{
+    // store the key values of the sub nodes? if they are leaves?
+    key keys[B_TREE_ORDER - 1];
+    // TODO(nasr): replace with something more generic?
+    // NOTE(nasr): cons of void * -> no type safety
+    // is there a way to still have some sort of that?
+    // size not variable
+    void *payload_per_key[B_TREE_ORDER - 1];
+    b_tree_node *parent;
+    // handle to store children faster than linked list
+    // because now we can iterate over the nodes instead of having cache misses
+    // when jumping through linked nodes
+    b_tree_node *children[B_TREE_ORDER];
+    // this shouldn't change things but could be a performance improvement on a bigger scale??
+    s32 *max_children;
+    // NOTE(nasr): reference count ::: check how many leaves are using this node
+    // also not needed for now because we don't free individual node because of arena allocator
+    // s32 *refc;
+    s32 key_count;
+    b32 leaf;
+    // NOTE(nasr): do we hold the reference to the arena? or do we pass is it as a reference? 
+    // this could solve memory location issues?
+};
+typedef struct b_tree b_tree;
+struct b_tree
+{
+    // NOTE(nasr): make sure this always stays in memory
+    // so that initial fetch never requires a disk read
+    b_tree_node *root;
+};
+#ifdef B_TREE_IMPLEMENTATION
+///////////////////////////////////////////////////////////////////////////////
+//- b_tree.c
+// TODO(nasr): 1. splitting the tree when getting too big? (horizontally) 2. joining trees?
+internal b_tree_node *
+btree_node_alloc(mem_arena *arena)
+{
+    b_tree_node *node = PushStructZero(arena, b_tree_node);
+    node->leaf = 1;
+    return node;
+}
+// NOTE(nasr): @return the index of the found element
+internal s32
+btree_node_find_pos(string8 value, b_tree_node *node)
+{
+    unused(value);
+    unused(node);
+#if 0
+    s32 i = 0;
+    for (; i < node->key_count && string8_cmp(node->keys[i], value) < 0; ++i);
+    return i;
+#endif
+    return 0;
+}
+internal void
+b_tree_create(mem_arena *arena, b_tree *tree)
+{
+    tree->root = btree_node_alloc(arena);
+    tree->root->leaf = 1;
+    tree->root->key_count = 0;
+}
+// NOTE(nasr): nodes that get passed as parameters should've already been loaded into memory
+internal void *
+b_tree_search(b_tree_node *node, string8 key)
+{
+    unused(node);
+    unused(key);
+#if 0
+    s32 i = btree_node_find_pos(key, node);
+    if (i < node->key_count && string8_cmp(node->keys[i], key) == 0)
+    {
+        return node->payload_per_key[i];
+    }
+    if (node->leaf)
+    {
+        return NULL;
+    }
+    return b_tree_search(node->children[i], key);
+#endif
+    return NULL;
+}
+// TODO(nasr): split node when key_count == B_TREE_ORDER - 1 (node is full)
+internal void
+b_tree_insert(b_tree *tree, string8 key, void *payload)
+{
+    unused(tree);
+    unused(key);
+    unused(payload);
+#if 0
+    b_tree_node *current_node = tree->root;
+    if (current_node->leaf)
+    {
+        // find the insertion position and shift keys right to make room
+        s32 i = btree_node_find_pos(key, current_node);
+        for (s32 j = current_node->key_count; j > i; --j)
+        {
+            current_node->keys[j]            = current_node->keys[j - 1];
+            current_node->payload_per_key[j] = current_node->payload_per_key[j - 1];
+        }
+        current_node->keys[i]            = key;
+        current_node->payload_per_key[i] = payload;
+        if(current_node->key_count < (B_TREE_ORDER - 1))
+        {
+            current_node->key_count         += 1;
+        }
+        else {
+            // TODO(nasr): creating a new branch / tree?
+            // make a seperate function for this
+        }
+    }
+    // TODO(nasr): internal node case walk down then split on the way back up
+#endif
+}
+internal void
+b_tree_write(b_tree *bt)
+{
+    // TODO(nasr): write the b_tree to disk
+    unused(bt);
+}
+#endif /* B_TREE_IMPLEMENTATION */
+#endif /* B_TREE_H */
author	nasr <nsrddyn@gmail.com>	2026-03-16 20:09:38 +0000
committer	nasr <nsrddyn@gmail.com>	2026-03-16 20:09:38 +0000
commit	e0722ef001c4cc41827dd83dad13d42d342d03ae (patch)
tree	f6d0252a1fc603cb5717da814ac64efb80c54cc2 /source/btree_impl.h
parent	180ccc84aac07c7bee2b09a6e07f7406908409b9 (diff)

diff --git a/source/btree_impl.h b/source/btree_impl.h new file mode 100644 index 0000000..8eb0723 --- /dev/null +++ b/source/btree_impl.h
@@ -0,0 +1,165 @@
	1	/* single header b-tree implementation by Abdellah El Morabit */
	2	#ifndef B_TREE_H
	3	#define B_TREE_H
	4
	5	// maximum height of the tree the lower the lower the lower amount
	6	// of disk reads which translates into faster?
	7	#if 0
	8	global_variable read_only s16 B_TREE_ORDER = 4;
	9	#endif
	10	#define B_TREE_ORDER 4
	11
	12	//- NOTE(nasr): defining a key to improve sorting
	13	// i think saying that a key is a combination of the column + row is a good way of appraoching this
	14	typedef struct key key;
	15	struct key
	16	{
	17	string8 header;
	18	s32 row;
	19	};
	20
	21	typedef struct b_tree_node b_tree_node;
	22	struct b_tree_node
	23	{
	24	// store the key values of the sub nodes? if they are leaves?
	25	key keys[B_TREE_ORDER - 1];
	26	// TODO(nasr): replace with something more generic?
	27	// NOTE(nasr): cons of void * -> no type safety
	28	// is there a way to still have some sort of that?
	29	// size not variable
	30	void *payload_per_key[B_TREE_ORDER - 1];
	31	b_tree_node *parent;
	32	// handle to store children faster than linked list
	33	// because now we can iterate over the nodes instead of having cache misses
	34	// when jumping through linked nodes
	35	b_tree_node *children[B_TREE_ORDER];
	36	// this shouldn't change things but could be a performance improvement on a bigger scale??
	37	s32 *max_children;
	38	// NOTE(nasr): reference count ::: check how many leaves are using this node
	39	// also not needed for now because we don't free individual node because of arena allocator
	40	// s32 *refc;
	41	s32 key_count;
	42	b32 leaf;
	43
	44
	45	// NOTE(nasr): do we hold the reference to the arena? or do we pass is it as a reference?
	46	// this could solve memory location issues?
	47	};
	48
	49	typedef struct b_tree b_tree;
	50	struct b_tree
	51	{
	52	// NOTE(nasr): make sure this always stays in memory
	53	// so that initial fetch never requires a disk read
	54	b_tree_node *root;
	55	};
	56
	57	#ifdef B_TREE_IMPLEMENTATION
	58	///////////////////////////////////////////////////////////////////////////////
	59	//- b_tree.c
	60
	61	// TODO(nasr): 1. splitting the tree when getting too big? (horizontally) 2. joining trees?
	62
	63	internal b_tree_node *
	64	btree_node_alloc(mem_arena *arena)
	65	{
	66	b_tree_node *node = PushStructZero(arena, b_tree_node);
	67	node->leaf = 1;
	68	return node;
	69	}
	70
	71	// NOTE(nasr): @return the index of the found element
	72	internal s32
	73	btree_node_find_pos(string8 value, b_tree_node *node)
	74	{
	75	unused(value);
	76	unused(node);
	77
	78	#if 0
	79	s32 i = 0;
	80	for (; i < node->key_count && string8_cmp(node->keys[i], value) < 0; ++i);
	81	return i;
	82	#endif
	83
	84	return 0;
	85
	86	}
	87
	88	internal void
	89	b_tree_create(mem_arena arena, b_tree tree)
	90	{
	91	tree->root = btree_node_alloc(arena);
	92	tree->root->leaf = 1;
	93	tree->root->key_count = 0;
	94	}
	95
	96
	97	// NOTE(nasr): nodes that get passed as parameters should've already been loaded into memory
	98	internal void *
	99	b_tree_search(b_tree_node *node, string8 key)
	100	{
	101	unused(node);
	102	unused(key);
	103
	104	#if 0
	105	s32 i = btree_node_find_pos(key, node);
	106
	107	if (i < node->key_count && string8_cmp(node->keys[i], key) == 0)
	108	{
	109	return node->payload_per_key[i];
	110	}
	111	if (node->leaf)
	112	{
	113	return NULL;
	114	}
	115	return b_tree_search(node->children[i], key);
	116	#endif
	117
	118	return NULL;
	119	}
	120
	121
	122	// TODO(nasr): split node when key_count == B_TREE_ORDER - 1 (node is full)
	123	internal void
	124	b_tree_insert(b_tree tree, string8 key, void payload)
	125	{
	126	unused(tree);
	127	unused(key);
	128	unused(payload);
	129	#if 0
	130	b_tree_node *current_node = tree->root;
	131
	132	if (current_node->leaf)
	133	{
	134	// find the insertion position and shift keys right to make room
	135	s32 i = btree_node_find_pos(key, current_node);
	136	for (s32 j = current_node->key_count; j > i; --j)
	137	{
	138	current_node->keys[j] = current_node->keys[j - 1];
	139	current_node->payload_per_key[j] = current_node->payload_per_key[j - 1];
	140	}
	141	current_node->keys[i] = key;
	142	current_node->payload_per_key[i] = payload;
	143
	144	if(current_node->key_count < (B_TREE_ORDER - 1))
	145	{
	146	current_node->key_count += 1;
	147	}
	148	else {
	149	// TODO(nasr): creating a new branch / tree?
	150	// make a seperate function for this
	151	}
	152	}
	153	// TODO(nasr): internal node case walk down then split on the way back up
	154	#endif
	155	}
	156
	157	internal void
	158	b_tree_write(b_tree *bt)
	159	{
	160	// TODO(nasr): write the b_tree to disk
	161	unused(bt);
	162	}
	163
	164	#endif /* B_TREE_IMPLEMENTATION */
	165	#endif /* B_TREE_H */