Change to globals are PascalCase, locals are snake_case

README.md

@@ -116,7 +116,7 @@ Stuff that helped me a lot programming the compiler. Hopefully they also will be
   - [ ] Dynamic arrays
   - [ ] Hash tables
 
-- [ ] Generics
+- [ ] Generics / Parametric polymorphism
 
 - [ ] Language constructs
   - [x] If

core_compiler.h

@@ -235,7 +235,7 @@ lex_init(Allocator *token_string_arena, Allocator *map_allocator, Lexer *l){
   keyword_false = l->intern("false"_s);
   keyword_return = l->intern("return"_s);
   keyword_switch = l->intern("switch"_s);
-  keyword_assert = l->intern("assert"_s);
+  keyword_assert = l->intern("Assert"_s);
   keyword_if = l->intern("if"_s);
   keyword_elif = l->intern("elif"_s);
   keyword_pass = l->intern("pass"_s);

core_main.cpp

@@ -56,9 +56,28 @@ For modules it's a bit different cause they should be distributed as valid.
 
 -------------------------------------------------------------------------------
 
-@todo
-- [ ] Split Bc into builder and interpreter
-- [ ] Implement functions in the bytecode
+- [ ] Basic
+  - [ ] Fix . operator lookups
+
+
+- [ ] Builtin data structures
+  - [ ] Fix length_of etc. they should be function calls not operators
+  - [ ] Strings probably should have len() instead of string.len
+  - [ ] Slices
+    - [ ] Some way to take slice of data
+  - [ ] Tuples
+  - [ ] Dynamic arrays
+  - [ ] Hash tables
+
+- [ ] Bytecode interpreter
+  - [ ] Ir
+  - [ ] Interpreter
+  - [ ] Code generation
+
+- [ ] Parametric Polymorphism
+
+
+- [ ] Improvements
 
 - [ ] Probably need to give Ast_Expr a Value field, then I can express Type nicely
 - [ ] I would love for String, slice, Any etc. to have their struct declarations in source files, I also would want for stuff like string.str to work without weird special cases
@@ -66,30 +85,25 @@ For modules it's a bit different cause they should be distributed as valid.
 
 - [ ] #test construct that would gather all tests and run them on start of program or something
 - [ ] Foreign import that would link library
-- [ ] Builtin dynamic arrays
 - [ ] Kilobyte, Megabyte, Gigabyte
 - [ ] Cast from array to pointer?
 - [ ] Fix field access, cant cast, cant index
 - [ ] Add parent_scope to Ast_Type, Add name to Ast_Type?
-- [ ] Some way to take slice of data
+
 - [ ] Optional function renaming in codegen
 - [ ] Using in structs to embed members, then casting offsets to that embedded member
 
 - [ ] Comma notation when declaring variables thing1, thing2: S32 :: probably want to unify it with var unpacking
 - [ ] Add single line lambda expressions
 - [ ] Ternary operator
-- [ ] Disable ability to parse inner structs, functions, constants etc. ?
 - [ ] Write up on order independent declarations
 
-- [ ] Consider changing syntax of scopes to use braces { }
-- [ ] Order independent declarations in structs ?
 - [ ] constructor => thing :: (i: S32) -> {i = i, thing = 10}
 - [ ] Casting to basic types by call S64(x)
 - [ ] Default values in structs??? Should compound stmts bring values from default values?? Maybe not? Whats the alternative
 
 @ideas
 - [ ] Var args using Any array - args: []Any - delete vargs
-- [ ] [Using] keyword that brings in the struct enviroment into current scope etc.
 - [ ] Constant arrays that evaluate fully at compile time
 - [ ] Rust like enum where you associate values(other structs) with keys
 - [ ] Compound that zeros values - .{} , Compound that assumes defaults from struct definition - {}
@@ -100,6 +114,8 @@ For modules it's a bit different cause they should be distributed as valid.
 
 ## Done
 
+- [x] Consider changing syntax of scopes to use braces { } NO
+- [x] Disable ability to parse inner structs, functions, constants etc. ?
 - [x] Fix language_basics.kl string index error
 - [x] Type as a parameter to a function, alloc :: (size: U64, type: Type)
 - [x] Add token information to instructions
@@ -119,7 +135,7 @@ For modules it's a bit different cause they should be distributed as valid.
 - [x] slices should be properly displayed in debugger
 - [x] Imports inside of import shouldn't spill outside
 - [x] Scope
-- [x] #assert that handles constants at compile time and vars at runtime
+- [x] #Assert that handles constants at compile time and vars at runtime
 - [x] Hex 0x42
 - [x] Rewrite where # happen,
 - [x] elif
@@ -136,6 +152,7 @@ For modules it's a bit different cause they should be distributed as valid.
 - [x] Emitting #line
 - [x] Making sure debugger works
 - [x] We need ++ -- operators
+- [x] Order independent declarations in structs ? NO MORE
 - [x] Arrays with size passed
 - [x] Values inited to 0 by default
 - [x] Some way to call foreign functions

core_typechecking.cpp

@@ -635,9 +635,9 @@ resolve_stmt(Ast *ast, Ast_Type *ret){
 
     CASE(CONSTANT_ASSERT, Builtin){
       Operand op = resolve_and_require_bool("Assert condition is not boolean", node->expr, AST_CAN_BE_NULL);
-      if(!op.is_const) compiler_error(node->pos, "#assert expression required to be constant");
+      if(!op.is_const) compiler_error(node->pos, "#Assert expression required to be constant");
       if(op.bool_val == false){
-        compiler_error(node->pos, "#assert condition not met :: %.*s", (int)node->assert_message.len, node->assert_message.str);
+        compiler_error(node->pos, "#Assert condition not met :: %.*s", (int)node->assert_message.len, node->assert_message.str);
       }
       BREAK();
     }

examples/arrays_and_slices.kl

@@ -15,15 +15,15 @@ main :: (): int
   static_array: [8]int
 
   // We can get size of array using length_of builtin
-  #assert(length_of(static_array) == 8)
+  #Assert(length_of(static_array) == 8)
 
   // Accessing values is like in C
   // Variables are zeroed by default
-  assert(static_array[1] == 0)
+  Assert(static_array[1] == 0)
 
   element2     := static_array[2]
   element0: int = static_array[0]
-  assert(element0 == 0 && element2 == 0)
+  Assert(element0 == 0 && element2 == 0)
 
   // We can loop through arrays
   // this implicitly defines 'it' variable
@@ -31,16 +31,16 @@ main :: (): int
     *it = 1
 
   // We set all variables to 1 so
-  assert(static_array[6] == 1)
+  Assert(static_array[6] == 1)
 
   // This is how slice is defined, no [] index in between brackets
   // slice is array pointer + length
   // Other then that it works exactly like regular array
   slice: []int = static_array
 
-  // We can't do a compile time assert anymore
-  assert(length_of(slice) == 8)
-  assert(slice[4] == 1)
+  // We can't do a compile time Assert anymore
+  Assert(length_of(slice) == 8)
+  Assert(slice[4] == 1)
 
   // After we loop and reassign slice values
   // old static_array gets changed
@@ -50,4 +50,4 @@ main :: (): int
   // example in a single line
   for slice;; *it = 2
 
-  assert(static_array[2] == 2)
+  Assert(static_array[2] == 2)

examples/drawing_to_screen_using_windows_api.kl

@@ -1,4 +1,5 @@
 #import "base.kl"
+Arena :: #import "arena.kl"
 #import "os_windows.kl"
 #import "kernel32.kl"
 #import "gdi32.kl"
@@ -18,7 +19,7 @@ Bitmap :: struct
   size: Vec2I
   data: *U32
 
-create_bitmap :: (size: Vec2I, bottom_up: Bool = true): Windows_Bitmap
+CreateBitmap :: (size: Vec2I, bottom_up: Bool = true): Windows_Bitmap
   result: Windows_Bitmap = {size = size}
   if bottom_up == false
     result.size.y = -result.size.y
@@ -42,11 +43,11 @@ create_bitmap :: (size: Vec2I, bottom_up: Bool = true): Windows_Bitmap
   return result
 
 
-app_is_running := true
-window_procedure :: (hwnd: HWND, msg: UINT, wparam: WPARAM, lparam: LPARAM): LRESULT
+AppIsRunning := true
+WindowProc :: (hwnd: HWND, msg: UINT, wparam: WPARAM, lparam: LPARAM): LRESULT
   if msg == WM_DESTROY
     PostQuitMessage(0)
-    app_is_running = false
+    AppIsRunning = false
     return 0
   else;; return DefWindowProcW(hwnd, msg, wparam, lparam)
 
@@ -54,15 +55,15 @@ WinMain :: (hInstance: HINSTANCE, hPrevInstance: HINSTANCE, lpCmdLine: LPSTR, nS
   if good_scheduling := false, timeBeginPeriod(1) == TIMERR_NOERROR
     good_scheduling = true
 
-  arena: Arena
+  arena: Arena.Arena
 
-  window_name := string_to_string16(&arena, "Have a wonderful day! 豈 更 車 賈 滑 串 句 龜 ")
+  window_name := StringToString16(&arena, "Have a wonderful day! 豈 更 車 賈 滑 串 句 龜 ")
   w := WNDCLASSW{
-    lpfnWndProc   = window_procedure,
+    lpfnWndProc   = WindowProc,
     hInstance     = hInstance,
     lpszClassName = window_name.str,
   }
-  assert(RegisterClassW(&w) != 0)
+  Assert(RegisterClassW(&w) != 0)
 
   screen_size: Vec2I = {1280, 720}
   window := CreateWindowExW(
@@ -73,17 +74,17 @@ WinMain :: (hInstance: HINSTANCE, hPrevInstance: HINSTANCE, lpCmdLine: LPSTR, nS
     dwStyle = WS_OVERLAPPEDWINDOW,
     hInstance = hInstance
   )
-  assert(window != 0)
+  Assert(window != 0)
   ShowWindow(window, nShowCmd)
 
   window_dc := GetDC(window)
-  bitmap := create_bitmap(screen_size)
+  bitmap := CreateBitmap(screen_size)
 
   requested_time_per_frame := 1.0 / 60.0
-  frame_start_time := time()
+  frame_start_time := Time()
   frame_number: S64
   total_time: F64
-  for app_is_running
+  for AppIsRunning
     msg: MSG
     for PeekMessageW(&msg, window, 0, 0, PM_REMOVE) > 0
       TranslateMessage(&msg)
@@ -97,7 +98,7 @@ WinMain :: (hInstance: HINSTANCE, hPrevInstance: HINSTANCE, lpCmdLine: LPSTR, nS
     BitBlt(window_dc, 0, 0, (bitmap.size.x)->int, (bitmap.size.y)->int, bitmap.hdc, 0, 0, SRCCOPY)
 
 
-    frame_time := time() - frame_start_time
+    frame_time := Time() - frame_start_time
     if frame_time < requested_time_per_frame
       if good_scheduling
         time_to_sleep := (requested_time_per_frame - frame_time) * 1000
@@ -106,9 +107,9 @@ WinMain :: (hInstance: HINSTANCE, hPrevInstance: HINSTANCE, lpCmdLine: LPSTR, nS
           // @check if time_to_sleep_dword truncates down
           Sleep(time_to_sleep_dword)
 
-        new_frame_time := time()
+        new_frame_time := Time()
         for new_frame_time < requested_time_per_frame
-          new_frame_time = time() - frame_start_time
+          new_frame_time = Time() - frame_start_time
 
         frame_time = new_frame_time
         frame_number += 1

examples/language_basics.kl

@@ -21,10 +21,10 @@ main :: (): int
   string_val: String = "String type"
   cstring_val: *char = "CString type"
 
-  assert(s64val == 0 && s32val == 0 && s16val == 0 && s8val == 0 && intval == 0 && u64val == 0 && u32val == 0 && u16val == 0 && u8val == 0 && f64val == 0 && f32val == 0)
+  Assert(s64val == 0 && s32val == 0 && s16val == 0 && s8val == 0 && intval == 0 && u64val == 0 && u32val == 0 && u16val == 0 && u8val == 0 && f64val == 0 && f32val == 0)
   // @todo: Fix error here !!
-  // assert(string_val[0]  == 'S) //'
-  assert(cstring_val[0] == 'C')
+  // Assert(string_val[0]  == 'S) //'
+  Assert(cstring_val[0] == 'C')
 
   // This is how we can assign variables
   // There is no need for prefixes, compiler figures
@@ -43,8 +43,8 @@ main :: (): int
   this_is_f64_by_default = 15.1255
 
   // @todo: Add type_of operator!!!
-  // assert(type_of(this_is_string_by_default) == String)
-  // assert(type_of(this_is_s64_by_default) == S64)
+  // Assert(type_of(this_is_string_by_default) == String)
+  // Assert(type_of(this_is_s64_by_default) == S64)
 
   // There are also constant bindings in the language.
   // You can bind all sorts of constants to names this way.
@@ -59,8 +59,8 @@ main :: (): int
   combining_types := this_is_s64_by_default->F64 + this_is_f64_by_default
 
 
-  assert(signed_variable == 10 && unsigned_variable == 10)
-  assert(INT_VALUE == 10)
-  assert(FLOAT_VALUE == 124.125)
-  assert(this_is_f64_by_default == 15.1255)
-  assert(combining_types == 15.1255 + 20)
+  Assert(signed_variable == 10 && unsigned_variable == 10)
+  Assert(INT_VALUE == 10)
+  Assert(FLOAT_VALUE == 124.125)
+  Assert(this_is_f64_by_default == 15.1255)
+  Assert(combining_types == 15.1255 + 20)

examples/runtime_type_information.kl

@@ -16,10 +16,10 @@ main :: (): int
   if type_info.type == S64
     // We can use size_of and align_of operators
     // to figure out the type alignment and it's size
-    assert(type_info.size == size_of(S64))
-    assert(type_info.align == align_of(S64))
+    Assert(type_info.size == size_of(S64))
+    Assert(type_info.align == align_of(S64))
 
-  else;; assert(false, "We expected S64 here! What a boomer!")
+  else;; Assert(false, "We expected S64 here! What a boomer!")
 
   //
   // @todo: This should work
@@ -41,12 +41,12 @@ main :: (): int
   elif any_value.type == int
     value: *int = any_value.data
     *value = 30
-  elif any_value.type == char;; assert(false, "No bueno")
+  elif any_value.type == char;; Assert(false, "No bueno")
 
-  assert(value_to_be_wrapped == 20)
+  Assert(value_to_be_wrapped == 20)
 
   letter := get_first_letter_of_type(value_to_be_wrapped)
-  assert(letter == 'I')
+  Assert(letter == 'I')
 
 get_first_letter_of_type :: (a: Any): U8
   type_info := get_type_info(a.type)

examples/types_as_first_class_values.kl

@@ -1,15 +1,15 @@
 main :: (): int
   // Types can be evaluated at compile time for equality
-  #assert(int == int)
-  #assert(int != char)
-  #assert(*char == *char)
+  #Assert(int == int)
+  #Assert(int != char)
+  #Assert(*char == *char)
 
   // They can also be evaluated at runtime, they basically get
   // replaced with type ids, which are just unique integers assigned
   // to each type
-  assert(int == int)
-  assert(int != char)
-  assert(*char == *char)
+  Assert(int == int)
+  Assert(int != char)
+  Assert(*char == *char)
 
   // We can assign types to compile time variable constants
   New_Type :: int
@@ -17,19 +17,19 @@ main :: (): int
   // This is a loose association
   thing: int = 10
   new_type_thing: New_Type = thing
-  #assert(New_Type == int)
+  #Assert(New_Type == int)
 
-  // to force typechecker to treat
+  // to force typechecker to treat$
   // both of these types as different we need to add a #strict directive
   Strict_Type :: #strict int
 
   // new_strict_type_thing: Strict_Type = thing // This produces a compile time type error
   // But this works
   strict_thing: Strict_Type = 10
-  #assert(Strict_Type != int)
+  #Assert(Strict_Type != int)
 
   // If we want to use those types together we need to cast
-  assert(new_type_thing + strict_thing->int != 0)
+  Assert(new_type_thing + strict_thing->int != 0)
 
   // We can also assign types to runtime variables, there is a special type for that
   some_type: Type = int

modules/base.kl

@@ -1,74 +1,31 @@
-Os      :: #import "os_windows.kl"
+OS      :: #import "os_windows.kl"
+#import "arena.kl"
 SizeU   :: U64
-arena_di: U64
 
-ADDITIONAL_COMMIT_SIZE :: 1024*1024
-DEFAULT_RESERVE_SIZE   :: 1024*1024*1024
-DEFAULT_ALIGNMENT      :: 8
-
-Arena :: struct
-  di: U64 // @debug_id
-  memory: Os.Memory
-  alignment: U64
-  len: U64
-
-clamp_top_sizeu :: (val: SizeU, max: SizeU): SizeU
+ClampTopSizeU :: (val: SizeU, max: SizeU): SizeU
   if val > max
     return max
   return val
 
-get_align_offset :: (size: SizeU, align: SizeU): SizeU
+GetAlignOffset :: (size: SizeU, align: SizeU): SizeU
   mask := align - 1
   val  := size & mask
   if val != 0
     val = align - val
   return val
 
-align_up :: (size: SizeU, align: SizeU): SizeU
-  result := size + get_align_offset(size, align)
+AlignUp :: (size: SizeU, align: SizeU): SizeU
+  result := size + GetAlignOffset(size, align)
   return result
 
-arena_init :: (a: *Arena)
-  a.memory    = Os.reserve(DEFAULT_RESERVE_SIZE)
-  a.alignment = DEFAULT_ALIGNMENT
-  a.di        = arena_di++
-  // a.allocator.proc = arena_allocator_proc
-
-arena_push_size :: (a: *Arena, size: SizeU): *void
-  generous_size := size + a.alignment
-  if a.len + generous_size > a.memory.commit
-    if a.memory.reserve == 0
-      arena_init(a)
-    result := Os.commit(&a.memory, generous_size + ADDITIONAL_COMMIT_SIZE)
-    assert(result == true)
-  a.len = align_up(a.len, a.alignment)
-  assert(a.memory.reserve  > a.len + a.memory.commit)
-  result: *void = a.memory.data + a.len
-  a.len += size
-  return result
-
-// @todo: Make this compile time thing!!!
-// This probably will wait till polymorphism stuff
-// something like this:
-// arena_push_type :: (a: *Arena, type: $T): *T
-//
-arena_push_type :: (a: *Arena, type: Type): *void
-  type_info := get_type_info(type)
-  assert(type_info != 0)
-  return arena_push_size(a, type_info.size->SizeU)
-
-arena_release :: (a: *Arena)
-  Os.release(&a.memory)
-
-
 //
 // Unicode
 //
-question_mark16 :: 0x003f
+QuestionMark16 :: 0x003f
 String32 :: struct;; str: *U32; len: S64
 String16 :: struct;; str: *U16; len: S64
 
-utf8_to_utf32 :: (c: *U8, max_advance: S64): U32, S64
+Utf8ToUtf32 :: (c: *U8, max_advance: S64): U32, S64
   out_str: U32
   advance: S64
   if (c[0] & 0b10000000) == 0
@@ -100,7 +57,7 @@ utf8_to_utf32 :: (c: *U8, max_advance: S64): U32, S64
 
   return out_str, advance
 
-utf32_to_utf16 :: (codepoint: U32): [2]U16, S64
+Utf32ToUtf16 :: (codepoint: U32): [2]U16, S64
   str: [2]U16
   len := 0
   if codepoint < 0x10000
@@ -114,24 +71,24 @@ utf32_to_utf16 :: (codepoint: U32): [2]U16, S64
 
   return str, len
 
-string_to_string16 :: (arena: *Arena, in: String): String16
+StringToString16 :: (arena: *Arena, in: String): String16
   in_str := &in[0]
   // @Note(Krzosa): Should be more then enough space
   alloc_size := (length_of(in)*2)+1
-  result := String16{str = arena_push_size(arena, alloc_size->U64)}
+  result := String16{str = PushSize(arena, alloc_size->U64)}
   for i := 0, i < length_of(in)
-    s32, s32_len := utf8_to_utf32(in_str + i, length_of(in) - i)
+    s32, s32_len := Utf8ToUtf32(in_str + i, length_of(in) - i)
     if s32_len != 0
       i += s32_len
-      s16, s16_len := utf32_to_utf16(s32)
+      s16, s16_len := Utf32ToUtf16(s32)
       if s16_len != 0
         for j := 0, j < s16_len, j++
           result.str[result.len++] = s16[j]
       else
-        result.str[result.len++] = question_mark16
+        result.str[result.len++] = QuestionMark16
         break
     else
-      result.str[result.len++] = question_mark16
+      result.str[result.len++] = QuestionMark16
       break
 
   result.str[result.len] = 0
@@ -139,14 +96,14 @@ string_to_string16 :: (arena: *Arena, in: String): String16
 
 test_unicode :: (arena: *Arena)
   string := "    豈 更 車 賈 滑 串 句 龜 龜 契 金 喇 奈 懶 癩 羅 蘿 螺 裸 邏 樂 洛 烙 珞 落 酪 駱 亂 卵 欄 爛 蘭 鸞 嵐 濫 藍 襤 拉 臘 蠟 廊 朗 浪 狼 郎 來 冷 勞 擄 櫓 爐 盧 老 蘆 虜 路 露 魯 鷺 碌 祿 綠 菉 錄 鹿 論 壟 弄 籠 聾 牢 磊 賂 雷 壘 屢 樓 淚 漏 累 縷 陋 勒 肋 凜 凌 稜 綾 菱 陵 讀 拏 樂 諾 丹 寧 怒 率 異 北 磻 便 復 不 泌 數 索 參 塞 省 葉 說 殺 辰 沈 拾 若 掠 略 亮 兩 凉 梁 糧 良 諒 量 勵 ..."
-  string_result := string_to_string16(arena, string)
+  string_result := StringToString16(arena, string)
   print(string_result)
 
-  s32, s32_len := utf8_to_utf32('A', 1)
+  s32, s32_len := Utf8ToUtf32('A', 1)
   assert(s32 == 'A', "Invalid decode")
 
-  s32_2, s32_len_2 := utf8_to_utf32('ć', 2)
+  s32_2, s32_len_2 := Utf8ToUtf32('ć', 2)
   assert(s32_2 == 0x107, "Invalid decode")
 
-  s32_3, s32_len_3 := utf8_to_utf32('ó', 2)
+  s32_3, s32_len_3 := Utf8ToUtf32('ó', 2)
   assert(s32_3 == 0xF3, "Invalid decode")

modules/os_windows.kl

@@ -7,14 +7,14 @@ Memory :: struct
   reserve: SizeU
   data   : *U8
 
-process_heap: HANDLE
-allocate :: (size: U64): *void
-  if process_heap == 0
-    process_heap = GetProcessHeap()
-  return HeapAlloc(process_heap, 0, size)
+ProcessHeap: HANDLE
+Allocate :: (size: U64): *void
+  if ProcessHeap == 0
+    ProcessHeap = GetProcessHeap()
+  return HeapAlloc(ProcessHeap, 0, size)
 
-reserve :: (size: SizeU): Memory
-  result := Memory{reserve=align_up(size, PAGE_SIZE)}
+Reserve :: (size: SizeU): Memory
+  result := Memory{reserve=AlignUp(size, PAGE_SIZE)}
   result.data = VirtualAlloc(
     flProtect        = PAGE_READWRITE,
     dwSize           = result.reserve,
@@ -22,10 +22,10 @@ reserve :: (size: SizeU): Memory
     lpAddress        = 0)->*U8
   return result
 
-commit :: (m: *Memory, size: SizeU): Bool
-  commit_size := align_up(size, PAGE_SIZE)
+Commit :: (m: *Memory, size: SizeU): Bool
+  commit_size := AlignUp(size, PAGE_SIZE)
   total_commit := m.commit + commit_size
-  clamped_commit := clamp_top_sizeu(total_commit, m.reserve)
+  clamped_commit := ClampTopSizeU(total_commit, m.reserve)
   adjusted_commit := clamped_commit - m.commit
   if adjusted_commit != 0
     result := VirtualAlloc(
@@ -38,28 +38,28 @@ commit :: (m: *Memory, size: SizeU): Bool
     return true
   return false
 
-release :: (m: *Memory)
+Release :: (m: *Memory)
   result := VirtualFree(m.data->*void, 0, MEM_RELEASE)
   if result != 0
     m.data    = 0
     m.commit  = 0
     m.reserve = 0
 
-write_console :: (string: String16)
+WriteConsole :: (string: String16)
   handle := GetStdHandle(STD_OUTPUT_HANDLE)
   WriteConsoleW(handle, string.str->*void, string.len->DWORD, 0, 0)
 
-performance_frequency: F64
-time :: (): F64
+PerformanceFrequency: F64
+Time :: (): F64
   query: LARGE_INTEGER
-  if !performance_frequency
+  if !PerformanceFrequency
     err := QueryPerformanceFrequency(&query)
-    assert(err != 0)
-    performance_frequency = query->F64
+    Assert(err != 0)
+    PerformanceFrequency = query->F64
 
   err := QueryPerformanceCounter(&query)
-  assert(err != 0)
-  result := query->F64 / performance_frequency
+  Assert(err != 0)
+  result := query->F64 / PerformanceFrequency
   return result
 
 /**
@@ -67,7 +67,7 @@ time :: (): F64
  * Written by Lukás Chmela
  * Released under GPLv3.
  */
-itoa :: (value: S64, result: *U8, base: S64): *U8
+Itoa :: (value: S64, result: *U8, base: S64): *U8
     // check that the base if valid
     if (base < 2) || (base > 36)
       *result = 0 // '
@@ -94,14 +94,14 @@ itoa :: (value: S64, result: *U8, base: S64): *U8
     return result
 
 
-print :: (string: String, args: ..)
+Print :: (string: String, args: ..)
   buffer: [1024]U8
   buffer_len: S64
 
   arg_counter := 0
   for i := 0, i < length_of(string), i+=1
     if string[i] == '%'
-      assert(arg_counter < length_of(args), "Passing too many [%] to a print lambda")
+      Assert(arg_counter < length_of(args), "Passing too many [%] to a print lambda")
       arg := args[arg_counter++]
 
       if arg.type == S64
@@ -110,6 +110,6 @@ print :: (string: String, args: ..)
         p := itoa(value, &itoa_buff[0], 10)
         for *p != 0
           buffer[buffer_len++] = *p++
-      else;; assert(false)
+      else;; Assert(false)
     else
       buffer[buffer_len++] = string[i]