#if defined(GB_SYSTEM_UNIX) // Required for intrinsics on GCC #include #endif #define GB_IMPLEMENTATION #include "gb/gb.h" #include #include #include gbAllocator heap_allocator(void) { return gb_heap_allocator(); } #include "unicode.cpp" #include "string.cpp" #include "array.cpp" #include "integer128.cpp" #include "murmurhash3.cpp" u128 fnv128a(void const *data, isize len) { u128 o = u128_lo_hi(0x13bull, 0x1000000ull); u128 h = u128_lo_hi(0x62b821756295c58dull, 0x6c62272e07bb0142ull); u8 const *bytes = cast(u8 const *)data; for (isize i = 0; i < len; i++) { h.lo ^= bytes[i]; h = h * o; } return h; } #include "map.cpp" gb_global String global_module_path = {0}; gb_global bool global_module_path_set = false; gb_global gbScratchMemory scratch_memory = {0}; void init_scratch_memory(isize size) { void *memory = gb_alloc(heap_allocator(), size); gb_scratch_memory_init(&scratch_memory, memory, size); } gbAllocator scratch_allocator(void) { return gb_scratch_allocator(&scratch_memory); } struct DynamicArenaBlock { DynamicArenaBlock *prev; DynamicArenaBlock *next; u8 * start; isize count; isize capacity; gbVirtualMemory vm; }; struct DynamicArena { DynamicArenaBlock *start_block; DynamicArenaBlock *current_block; isize block_size; }; DynamicArenaBlock *add_dynamic_arena_block(DynamicArena *a) { GB_ASSERT(a != NULL); GB_ASSERT(a->block_size > 0); gbVirtualMemory vm = gb_vm_alloc(NULL, a->block_size); DynamicArenaBlock *block = cast(DynamicArenaBlock *)vm.data; u8 *start = cast(u8 *)gb_align_forward(cast(u8 *)(block + 1), GB_DEFAULT_MEMORY_ALIGNMENT); u8 *end = cast(u8 *)vm.data + vm.size; block->vm = vm; block->start = start; block->count = 0; block->capacity = end-start; if (a->current_block != NULL) { a->current_block->next = block; block->prev = a->current_block; } a->current_block = block; return block; } void init_dynamic_arena(DynamicArena *a, isize block_size) { isize size = gb_size_of(DynamicArenaBlock) + block_size; size = cast(isize)gb_align_forward(cast(void *)cast(uintptr)size, GB_DEFAULT_MEMORY_ALIGNMENT); a->block_size = size; a->start_block = add_dynamic_arena_block(a); } void destroy_dynamic_arena(DynamicArena *a) { DynamicArenaBlock *b = a->current_block; while (b != NULL) { gbVirtualMemory vm = b->vm; b = b->prev; gb_vm_free(b->vm); } } GB_ALLOCATOR_PROC(dynamic_arena_allocator_proc) { DynamicArena *a = cast(DynamicArena *)allocator_data; void *ptr = NULL; switch (type) { case gbAllocation_Alloc: { } break; case gbAllocation_Free: { } break; case gbAllocation_Resize: { } break; case gbAllocation_FreeAll: GB_PANIC("free_all is not supported by this allocator"); break; } return ptr; } gbAllocator dynamic_arena_allocator(DynamicArena *a) { gbAllocator allocator = {dynamic_arena_allocator_proc, a}; return allocator; } i64 next_pow2(i64 n) { if (n <= 0) { return 0; } n--; n |= n >> 1; n |= n >> 2; n |= n >> 4; n |= n >> 8; n |= n >> 16; n |= n >> 32; n++; return n; } i64 prev_pow2(i64 n) { if (n <= 0) { return 0; } n |= n >> 1; n |= n >> 2; n |= n >> 4; n |= n >> 8; n |= n >> 16; n |= n >> 32; return n - (n >> 1); } i16 f32_to_f16(f32 value) { union { u32 i; f32 f; } v; i32 i, s, e, m; v.f = value; i = (i32)v.i; s = (i >> 16) & 0x00008000; e = ((i >> 23) & 0x000000ff) - (127 - 15); m = i & 0x007fffff; if (e <= 0) { if (e < -10) return cast(i16)s; m = (m | 0x00800000) >> (1 - e); if (m & 0x00001000) m += 0x00002000; return cast(i16)(s | (m >> 13)); } else if (e == 0xff - (127 - 15)) { if (m == 0) { return cast(i16)(s | 0x7c00); /* NOTE(bill): infinity */ } else { /* NOTE(bill): NAN */ m >>= 13; return cast(i16)(s | 0x7c00 | m | (m == 0)); } } else { if (m & 0x00001000) { m += 0x00002000; if (m & 0x00800000) { m = 0; e += 1; } } if (e > 30) { float volatile f = 1e12f; int j; for (j = 0; j < 10; j++) { f *= f; /* NOTE(bill): Cause overflow */ } return cast(i16)(s | 0x7c00); } return cast(i16)(s | (e << 10) | (m >> 13)); } } f64 gb_sqrt(f64 x) { return sqrt(x); } #define for_array(index_, array_) for (isize index_ = 0; index_ < (array_).count; index_++) // Doubly Linked Lists #define DLIST_SET(curr_element, next_element) do { \ (curr_element)->next = (next_element); \ (curr_element)->next->prev = (curr_element); \ (curr_element) = (curr_element)->next; \ } while (0) #define DLIST_APPEND(root_element, curr_element, next_element) do { \ if ((root_element) == NULL) { \ (root_element) = (curr_element) = (next_element); \ } else { \ DLIST_SET(curr_element, next_element); \ } \ } while (0) #if defined(GB_SYSTEM_WINDOWS) wchar_t **command_line_to_wargv(wchar_t *cmd_line, int *_argc) { u32 i, j; u32 len = string16_len(cmd_line); i = ((len+2)/2)*gb_size_of(void *) + gb_size_of(void *); wchar_t **argv = cast(wchar_t **)GlobalAlloc(GMEM_FIXED, i + (len+2)*gb_size_of(wchar_t)); wchar_t *_argv = cast(wchar_t *)((cast(u8 *)argv)+i); u32 argc = 0; argv[argc] = _argv; bool in_quote = false; bool in_text = false; bool in_space = true; i = 0; j = 0; for (;;) { wchar_t a = cmd_line[i]; if (a == 0) { break; } if (in_quote) { if (a == '\"') { in_quote = false; } else { _argv[j++] = a; } } else { switch (a) { case '\"': in_quote = true; in_text = true; if (in_space) argv[argc++] = _argv+j; in_space = false; break; case ' ': case '\t': case '\n': case '\r': if (in_text) _argv[j++] = '\0'; in_text = false; in_space = true; break; default: in_text = true; if (in_space) argv[argc++] = _argv+j; _argv[j++] = a; in_space = false; break; } } i++; } _argv[j] = '\0'; argv[argc] = NULL; if (_argc) *_argc = argc; return argv; } #endif