12 changed files with 120 additions and 276 deletions
--- a/docs/CHANGELOG
+++ b/docs/CHANGELOG
@ -0,0 +1,7 @@
 12-04-2024  René Huiberts  <rhuibertsjr@gmail.com>
 	Updated: references & documentation
 12-04-2024  René Huiberts  <rhuibertsjr@gmail.com>
 	Added: project layout
--- a/src/arena.c
+++ b/src/arena.c
@ -1,93 +1,40 @@
 internal Arena *
-arena_initialize(u64 size, b8 growable)
+arena_initialize(u64 size)
 {
  Arena *result = 0;
-  void *backing_buffer = platform_memory_reserve(size);
+
  void *backing_buffer = malloc(size);
  if (backing_buffer != NULL)
  {
    platform_memory_commit(backing_buffer, ARENA_INITIAL_COMMIT_SIZE);
    result = (Arena*) backing_buffer;
    result->backing_buffer = (u64*) backing_buffer;
    result->current = result;
    result->prev = 0;
-    // rhjr: immutable arena header
+    result->buffer = backing_buffer;
-    result->base_pos =
+    result->offset = sizeof(Arena); 
-      memory_align(sizeof(Arena), ARENA_DEFAULT_ALIGNMENT);
+    result->size   = sizeof(Arena) + size;
    result->offset = result->base_pos;
    result->growable = growable;
    result->size = size;
  }
  // rhjr: arenas should be instantiated early on in the programs lifetime, that
  //       is why this assertion will also be used in production.
  ASSERT(result != 0);
  return result;
 }
 internal Arena *
 arena_initialize_default()
 {
  Arena *result = arena_initialize(ARENA_DEFAULT_RESERVE_SIZE, 1);
  return result;
 }
 internal void *
 arena_allocate(Arena *arena, u64 size)
 {
-  Arena *current = arena->current;
+  void *result = 0;
  u64 pos_cur = current->base_pos + current->offset;
  u64 pos_mem = memory_align(pos_cur, ARENA_DEFAULT_ALIGNMENT);
  u64 pos_new = pos_mem + size;
-  if (current->size < pos_new && current->growable)
+  if (arena->offset + size <= arena->size)
  {
-    Arena *new_memory_bock;
+    result = (void*)((u64) arena->buffer + (u64) arena->offset);
    arena->offset += size;
-    if (size > ARENA_DEFAULT_RESERVE_SIZE)
+    memset(result, 0, size);
    {
      // rhjr: TODO add support for allocations larger then a single page, in a
      //       single allocation call.
      ASSERT(0);
    }
    else
    {
      new_memory_bock = arena_initialize_default();
      if (new_memory_bock)
      {
        stack_push(arena->current, new_memory_bock, prev);
        current = new_memory_bock;
        pos_mem =
          memory_align(current->offset, ARENA_DEFAULT_ALIGNMENT);
        pos_new = current->offset + size;
  }
-    }
+  return result;
  }
  void *memory = (void*)((u64) current->backing_buffer + pos_mem);
  arena->offset = pos_new;
  platform_memory_commit(memory, size);
  memset(memory, 0, size);
  return memory;
 }
 internal void
 arena_release(Arena *arena)
 {
-  for (Arena *node = arena->current, *prev = 0; node != 0; node = prev)
+  arena->offset = 0;
  {
    prev = node->prev;
    platform_memory_release(node, node->size);
  }
 }
--- a/src/arena.h
+++ b/src/arena.h
@ -1,30 +1,19 @@
 #ifndef ARENA_H
 #define ARENA_H
 #define ARENA_INITIAL_COMMIT_SIZE sizeof(struct Arena)
 #define ARENA_DEFAULT_ALIGNMENT   0
 #ifndef ARENA_DEFAULT_RESERVE_SIZE
 #  define ARENA_DEFAULT_RESERVE_SIZE KB(4)
 #endif // ARENA_DEFAULT_RESERVE_SIZE
 typedef struct Arena Arena;
 struct Arena {
-  struct Arena *current;
+  u64 *buffer;
  struct Arena *prev;
  u64 *backing_buffer;
  u64 base_pos;
  u64 offset;
  u64 size;
  b8 growable;
 };
-//= rhjr: arenas
+internal Arena * arena_initialize(u64 size);
 internal Arena * arena_initialize(u64 size, b8 growable);
 internal Arena * arena_initialize_default();
 internal void * arena_allocate(Arena *arena, u64 size);
 internal void   arena_release(Arena *arena);
 //= rhjr: arena helpers
 #define arena_push_array(arena, type, count) \
  (type*) arena_allocate((arena), sizeof(type) * (count))
@ -32,12 +21,8 @@ internal void *  arena_allocate(Arena *arena, u64 size);
 #define arena_push(arena, type) \
  (type*) arena_allocate((arena), sizeof(type))
 internal void arena_release(Arena *arena);
 //= rhjr: memory helpers
 #define memory_align(x, b) ((b != 0) ? (((x) + (b) - 1) & (~(b - 1))) : (x))
 #define memory_zero(s,z)       memset((s), 0, (z))
 #define memory_zero_struct(s)  memory_zero((s), sizeof(*(s)))
--- a/src/base.h
+++ b/src/base.h
@ -18,30 +18,12 @@ typedef int16_t i16;
 typedef int32_t i32;
 typedef int64_t i64;
 typedef uint8_t  b8;
 typedef uint16_t b16;
 typedef uint32_t b32;
 typedef uint64_t b64;
 #define KB(b) ((b) << 10)
 #define MB(b) ((b) << 20)
 #define STATEMENT(S) do{ S } while(0)
 #define ASSERT(c) STATEMENT( if (!(c)){ (*(volatile int*)0 = 0); } )
 #define STATIC_ASSERT(c,l) typedef u8 Glue(l,__LINE__) [(c)?1:-1]
 #define MIN(A,B) (((A)<(B))?(A):(B))
 //= rhjr: linked-list
 #define check_null(p) ((p)==0)
 #define set_null(p) ((p)=0)
 #define queue_push_nz(f,l,n,next,zchk,zset) (zchk(f)?\
 (((f)=(l)=(n)), zset((n)->next)):\
 ((l)->next=(n),(l)=(n),zset((n)->next)))
 #define queue_push(f,l,n)    queue_push_nz(f,l,n,next,check_null,set_null)
 #define stack_push(f,n,next) ((n)->next=(f), (f)=(n))
 #endif // BASE_H
--- a/src/hash-store.c
+++ b/src/hash-store.c
@ -0,0 +1,58 @@
 internal Table
 hash_store_initialize(void)
 {
  Table result = {0};
  result.ptr_arena = arena_initialize(KB(1));
  result.str8_arena = arena_initialize(KB(1));
  result.str8_ptr = arena_push(result.ptr_arena, String8);
  result.str8_count = 1;
  result.str8_ptr[0] = str8_lit("");
  return result;
 }
 internal Key
 hash_store_string8_to_key(Table *table, String8 value)
 {
  Key result = 0;
  u32 count = table->str8_count;
  result = count;
  String8 *str8_ptr = table->str8_ptr;
  for (u32 index = 0; index < count; index += 1, str8_ptr += 1)
  {
    if (string8_match(*str8_ptr, value))
    {
      result = index;
      break;
    }
  }
  if (result == count)
  {
    String8 *new_str8 = arena_push(table->ptr_arena, String8);
    new_str8->content =
      arena_push_array(table->str8_arena, u8, value.length);
    memory_copy(new_str8->content, value.content, value.length);
    table->str8_count += 1;
  }
  return result;
 }
 internal String8
 hash_store_string8_from_key(Table *table, Key index)
 {
  String8 result = {0};
  if (index < table->str8_count)
    {
      result = table->str8_ptr[index];
    }
  return result;
 }
--- a/src/hash-store.h
+++ b/src/hash-store.h
@ -0,0 +1,21 @@
 #ifndef HASH_TABLE_H
 #define HASH_TABLE_H
 typedef u32 Key; 
 typedef struct Table Table;
 struct Table
 {
  Arena *ptr_arena;
  Arena *str8_arena;
  String8 *str8_ptr;
  u32 str8_count;
 };
 internal Table   hash_store_initialize(void);
 internal String8 hash_store_string8_from_key(Table *table, Key index);
 internal Key     hash_store_string8_to_key(Table *table, String8 value);
 #endif
--- a/src/hash_store.c
+++ b/src/hash_store.c
@ -1,69 +0,0 @@
 internal Key
 hash_store_hash(String8 data)
 {
  Key result = {0};
  u64 hash = 5381;
  for(u64 i = 0; i < data.length; i += 1)
  {
    hash = ((hash << 5) + hash) + data.content[i];
  }
  memory_copy(&result, &hash, sizeof(u64));
  return result;
 }
 internal Table *
 hash_store_initialize(void)
 {
  Arena *arena = arena_initialize_default();
  Arena *str8_arena = arena_initialize_default();
  Table *table = arena_push(arena, Table);
  table->arena = arena;
  table->str8_arena = str8_arena;
  table->slots_count = 200;
  table->slots = arena_push_array(arena, TableSlot, table->slots_count);
  return table;
 }
 internal Key
 hash_store_string8_to_key(Table *table, String8 data)
 {
  Key result = hash_store_hash(data);
  u64 slot_idx = result.U32[0]%table->slots_count;
  TableNode *node = arena_push(table->arena, TableNode);
  node->data.content = arena_push_array(table->str8_arena, char, data.length);
  node->data.length = data.length;
  node->key = result;
  memory_copy(&node->data.content, &data.content, data.length);
  TableSlot *slot = &table->slots[slot_idx];
  queue_push(slot->first, slot->last, node);
  return result;
 }
 internal String8
 hash_store_string8_from_key(Table *table, Key key)
 {
  String8 result = {0};
  u64 slot_idx = key.U32[0]%table->slots_count;
  TableSlot *slot = &table->slots[slot_idx];
  for (TableNode *n = slot->first; n != 0; n = n->next)
  {
    if (key.U32[1] == n->key.U32[1])
    {
      result = n->data;
      break;
    }
  }
  return result;
 }
--- a/src/hash_store.h
+++ b/src/hash_store.h
@ -1,39 +0,0 @@
 #ifndef HASH_TABLE_H
 #define HASH_TABLE_H
 typedef struct Key Key;
 struct Key
 {
  u32 U32[2];
 };
 typedef struct TableNode TableNode;
 struct TableNode
 {
  TableNode *next;
  String8 data;
  Key key;
 };
 typedef struct TableSlot TableSlot;
 struct TableSlot
 {
  TableNode *first;
  TableNode *last;
 };
 typedef struct Table Table;
 struct Table
 {
  Arena *arena;
  Arena *str8_arena;
  TableSlot *slots;
  u64 slots_count;
 };
 internal Table * hash_store_initialize(void);
 internal Key hash_store_string8_to_key(Table *table, String8 data);
 #endif
--- a/src/main.c
+++ b/src/main.c
@ -1,28 +1,32 @@
 #include "base.h"
-#include "win32_platform.h"
+
 #include "arena.h"
 #include "string.h"
-#include "hash_store.h"
+#include "hash-store.h"
 #include "win32_platform.c"
 #include "arena.c"
 #include "string.c"
-#include "hash_store.c"
+#include "hash-store.c"
 int
 main(void)
 {
-  Table *table = hash_store_initialize();
+  Table store = hash_store_initialize();
  Key a = hash_store_string8_to_key(&store, str8_lit("Hello"));
  Key b = hash_store_string8_to_key(&store, str8_lit("Beautiful"));
  Key c = hash_store_string8_to_key(&store, str8_lit("World"));
-  String8 str8_1 = str8_lit("Hello world");
+  String8 str_a = hash_store_string8_from_key(&store, a);
-  String8 str8_2 = str8_lit("ayenooo");
+  String8 str_b = hash_store_string8_from_key(&store, b);
  String8 str_c = hash_store_string8_from_key(&store, c);
-  Key key1 = hash_store_string8_to_key(table, str8_1);
+  ASSERT(hash_store_string8_to_key(&store, str8_lit("Hello")) == a);
-  Key key2 = hash_store_string8_to_key(table, str8_2);
+  ASSERT(hash_store_string8_to_key(&store, str8_lit("Beautiful")) == b);
-  Key key3 = hash_store_string8_to_key(table, str8_1);
+  ASSERT(hash_store_string8_to_key(&store, str8_lit("World")) == c);
-  String8 string = hash_store_string8_from_key(table, key2);
+  ASSERT(string8_match(hash_store_string8_from_key(&store, a), str8_lit("Hello")));
-  printf("%.*s\n", (i32) string.length, string.content);
+  ASSERT(string8_match(hash_store_string8_from_key(&store, b), str8_lit("Beautiful")));
  ASSERT(string8_match(hash_store_string8_from_key(&store, c), str8_lit("World")));
  return 0;
 };
--- a/src/string.h
+++ b/src/string.h
@ -11,7 +11,6 @@ struct String8
 internal String8 str8_init(u8 *cstring, u64 length);
 #define str8_lit(cstring)                                                       \
    str8_init((u8*)(cstring), sizeof(cstring) - 1)
 #define str8_lit_comp(cstring) {(u8*)(cstring), sizeof(cstring) - 1}
 internal u8 string8_match(String8 a, String8 b);
--- a/src/win32_platform.c
+++ b/src/win32_platform.c
@ -1,34 +0,0 @@
 internal void *
 platform_memory_reserve(u64 size)
 {
  void *result = VirtualAlloc(0, size, MEM_RESERVE, PAGE_READWRITE);
  return result;
 }
 internal b8
 platform_memory_commit(void *ptr, u64 size)
 {
  b32 result = (VirtualAlloc(ptr, size, MEM_COMMIT, PAGE_READWRITE) != 0);
  return result;
 }
 internal void
 platform_memory_decommit(void *ptr, u64 size)
 {
  VirtualFree(ptr, size, MEM_DECOMMIT);
 };
 internal void
 platform_memory_release(void *ptr, u64 size)
 {
  VirtualFree(ptr, 0, MEM_RELEASE);
 }
 internal u64
 platform_get_page_size(void)
 {
  SYSTEM_INFO sysinfo = {0};
  GetSystemInfo(&sysinfo);
  return sysinfo.dwPageSize;
 }
--- a/src/win32_platform.h
+++ b/src/win32_platform.h
@ -1,17 +0,0 @@
 #ifndef WIN32_PLATFORM_H
 #define WIN32_PLATFORM_H
 #undef internal
 #include <Windows.h>
 #define internal static
 //= rhjr: platform memory management
 internal void * platform_memory_reserve(u64 size);
 internal b8     platform_memory_commit(void *ptr, u64 size);
 internal void   platform_memory_decommit(void *ptr, u64 size);
 internal void   platform_memory_release(void *ptr, u64 size);
 internal u64    platform_get_page_size(void);
 #endif // WIN32_PLATFORM_H