ogl_beamforming

Ultrasound Beamforming Implemented with OpenGL
git clone anongit@rnpnr.xyz:ogl_beamforming.git
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build.c (84155B)


      1 /* See LICENSE for license details. */
      2 /* NOTE: inspired by nob: https://github.com/tsoding/nob.h */
      3 
      4 /* TODO(rnp):
      5  * [ ]: refactor: merge pack_table and bake_parameters
      6  * [ ]: refactor: allow @Expand to come before the table definition
      7  * [x]: refactor: helper for appending expanded shader flags
      8  * [x]: refactor: "base" shaders should only be reloadable shaders
      9  *      - internally when a shader with no file is encountered it should
     10  *        not get pushed as a "base" shader.
     11  * [x]: bug: column indicator for compile error is off
     12  * [ ]: bake shaders and font data into binary
     13  *      - for shaders there is a way of making a separate data section and referring
     14  *        to it with extern from the C source (bake both data and size)
     15  *      - use objcopy, maybe need linker script maybe command line flags for ld will work
     16  * [ ]: cross compile/override baked compiler
     17  * [ ]: msvc build doesn't detect out of date files correctly
     18  * [ ]: seperate dwarf debug info
     19  */
     20 #include <stdarg.h>
     21 #include <setjmp.h>
     22 #include <stdio.h>
     23 
     24 #include "util.h"
     25 
     26 #define BeamformerShaderKind_ComputeCount (1)
     27 #include "beamformer_parameters.h"
     28 
     29 global char *g_argv0;
     30 
     31 #define OUTDIR    "out"
     32 #define OUTPUT(s) OUTDIR "/" s
     33 
     34 #if COMPILER_MSVC
     35   #define COMMON_FLAGS     "-nologo", "-std:c11", "-Fo:" OUTDIR "\\", "-Z7", "-Zo"
     36   #define DEBUG_FLAGS      "-Od", "-D_DEBUG"
     37   #define OPTIMIZED_FLAGS  "-O2"
     38   #define EXTRA_FLAGS      ""
     39 #else
     40   #define COMMON_FLAGS     "-std=c11", "-pipe", "-Wall"
     41   #define DEBUG_FLAGS      "-O0", "-D_DEBUG", "-Wno-unused-function"
     42   #define OPTIMIZED_FLAGS  "-O3"
     43   #define EXTRA_FLAGS_BASE "-Werror", "-Wextra", "-Wshadow", "-Wconversion", "-Wno-unused-parameter", \
     44                            "-Wno-error=unused-function", "-funsafe-math-optimizations", "-fno-math-errno"
     45   #if COMPILER_GCC
     46     #define EXTRA_FLAGS EXTRA_FLAGS_BASE, "-Wno-unused-variable"
     47   #else
     48     #define EXTRA_FLAGS EXTRA_FLAGS_BASE
     49   #endif
     50 #endif
     51 
     52 #define is_aarch64 ARCH_ARM64
     53 #define is_amd64   ARCH_X64
     54 #define is_unix    OS_LINUX
     55 #define is_w32     OS_WINDOWS
     56 #define is_clang   COMPILER_CLANG
     57 #define is_gcc     COMPILER_GCC
     58 #define is_msvc    COMPILER_MSVC
     59 
     60 #if OS_LINUX
     61 
     62   #include <errno.h>
     63   #include <string.h>
     64   #include <sys/select.h>
     65   #include <sys/wait.h>
     66 
     67   #include "os_linux.c"
     68 
     69   #define W32_DECL(x)
     70 
     71   #define OS_SHARED_LINK_LIB(s) "lib" s ".so"
     72   #define OS_SHARED_LIB(s)      s ".so"
     73   #define OS_STATIC_LIB(s)      s ".a"
     74   #define OS_MAIN "main_linux.c"
     75 
     76 #elif OS_WINDOWS
     77 
     78   #include "os_win32.c"
     79 
     80   #define W32_DECL(x) x
     81 
     82   #define OS_SHARED_LINK_LIB(s) s ".dll"
     83   #define OS_SHARED_LIB(s)      s ".dll"
     84   #define OS_STATIC_LIB(s)      s ".lib"
     85   #define OS_MAIN "main_w32.c"
     86 
     87 #else
     88   #error Unsupported Platform
     89 #endif
     90 
     91 #if COMPILER_CLANG
     92   #define COMPILER "clang"
     93 #elif COMPILER_MSVC
     94   #define COMPILER "cl"
     95 #else
     96   #define COMPILER "cc"
     97 #endif
     98 
     99 #if COMPILER_MSVC
    100   #define LINK_LIB(name)             name ".lib"
    101   #define OBJECT(name)               name ".obj"
    102   #define OUTPUT_DLL(name)           "/LD", "/Fe:", name
    103   #define OUTPUT_LIB(name)           "/out:" OUTPUT(name)
    104   #define OUTPUT_EXE(name)           "/Fe:", name
    105   #define STATIC_LIBRARY_BEGIN(name) "lib", "/nologo", name
    106 #else
    107   #define LINK_LIB(name)             "-l" name
    108   #define OBJECT(name)               name ".o"
    109   #define OUTPUT_DLL(name)           "-fPIC", "-shared", "-o", name
    110   #define OUTPUT_LIB(name)           OUTPUT(name)
    111   #define OUTPUT_EXE(name)           "-o", name
    112   #define STATIC_LIBRARY_BEGIN(name) "ar", "rc", name
    113 #endif
    114 
    115 #define shift(list, count) ((count)--, *(list)++)
    116 
    117 #define cmd_append_count da_append_count
    118 #define cmd_append(a, s, ...) da_append_count(a, s, ((char *[]){__VA_ARGS__}), \
    119                                               (iz)(sizeof((char *[]){__VA_ARGS__}) / sizeof(char *)))
    120 
    121 DA_STRUCT(char *, Command);
    122 
    123 typedef struct {
    124 	b32   debug;
    125 	b32   generic;
    126 	b32   sanitize;
    127 	b32   tests;
    128 	b32   time;
    129 } Options;
    130 
    131 #define BUILD_LOG_KINDS \
    132 	X(Error,    "\x1B[31m[ERROR]\x1B[0m    ") \
    133 	X(Warning,  "\x1B[33m[WARNING]\x1B[0m  ") \
    134 	X(Generate, "\x1B[32m[GENERATE]\x1B[0m ") \
    135 	X(Info,     "\x1B[33m[INFO]\x1B[0m     ") \
    136 	X(Command,  "\x1B[36m[COMMAND]\x1B[0m  ")
    137 #define X(t, ...) BuildLogKind_##t,
    138 typedef enum {BUILD_LOG_KINDS BuildLogKind_Count} BuildLogKind;
    139 #undef X
    140 
    141 function void
    142 build_log_base(BuildLogKind kind, char *format, va_list args)
    143 {
    144 	#define X(t, pre) pre,
    145 	read_only local_persist char *prefixes[BuildLogKind_Count + 1] = {BUILD_LOG_KINDS "[INVALID] "};
    146 	#undef X
    147 	FILE *out = kind == BuildLogKind_Error? stderr : stdout;
    148 	fputs(prefixes[MIN(kind, BuildLogKind_Count)], out);
    149 	vfprintf(out, format, args);
    150 	fputc('\n', out);
    151 }
    152 
    153 #define build_log_failure(format, ...) build_log(BuildLogKind_Error, \
    154                                                  "failed to build: " format, ##__VA_ARGS__)
    155 #define build_log_generate(...) build_log(BuildLogKind_Generate, ##__VA_ARGS__)
    156 #define build_log_info(...)     build_log(BuildLogKind_Info,     ##__VA_ARGS__)
    157 #define build_log_command(...)  build_log(BuildLogKind_Command,  ##__VA_ARGS__)
    158 #define build_log_warning(...)  build_log(BuildLogKind_Warning,  ##__VA_ARGS__)
    159 function void
    160 build_log(BuildLogKind kind, char *format, ...)
    161 {
    162 	va_list ap;
    163 	va_start(ap, format);
    164 	build_log_base(kind, format, ap);
    165 	va_end(ap);
    166 }
    167 
    168 #define build_fatal(fmt, ...) build_fatal_("%s: " fmt, __FUNCTION__, ##__VA_ARGS__)
    169 function no_return void
    170 build_fatal_(char *format, ...)
    171 {
    172 	va_list ap;
    173 	va_start(ap, format);
    174 	build_log_base(BuildLogKind_Error, format, ap);
    175 	va_end(ap);
    176 	os_exit(1);
    177 }
    178 
    179 function b32
    180 s8_contains(s8 s, u8 byte)
    181 {
    182 	b32 result = 0;
    183 	for (iz i = 0 ; !result && i < s.len; i++)
    184 		result |= s.data[i] == byte;
    185 	return result;
    186 }
    187 
    188 function void
    189 stream_push_command(Stream *s, CommandList *c)
    190 {
    191 	if (!s->errors) {
    192 		for (iz i = 0; i < c->count; i++) {
    193 			s8 item    = c_str_to_s8(c->data[i]);
    194 			if (item.len) {
    195 				b32 escape = s8_contains(item, ' ') || s8_contains(item, '"');
    196 				if (escape) stream_append_byte(s, '\'');
    197 				stream_append_s8(s, item);
    198 				if (escape) stream_append_byte(s, '\'');
    199 				if (i != c->count - 1) stream_append_byte(s, ' ');
    200 			}
    201 		}
    202 	}
    203 }
    204 
    205 #if OS_LINUX
    206 
    207 function b32
    208 os_rename_file(char *name, char *new)
    209 {
    210 	b32 result = rename(name, new) != -1;
    211 	return result;
    212 }
    213 
    214 function b32
    215 os_remove_file(char *name)
    216 {
    217 	b32 result = remove(name) != -1;
    218 	return result;
    219 }
    220 
    221 function void
    222 os_make_directory(char *name)
    223 {
    224 	mkdir(name, 0770);
    225 }
    226 
    227 function u64
    228 os_get_filetime(char *file)
    229 {
    230 	struct stat sb;
    231 	u64 result = (u64)-1;
    232 	if (stat(file, &sb) != -1)
    233 		result = (u64)sb.st_mtim.tv_sec;
    234 	return result;
    235 }
    236 
    237 function iptr
    238 os_spawn_process(CommandList *cmd, Stream sb)
    239 {
    240 	pid_t result = fork();
    241 	switch (result) {
    242 	case -1: build_fatal("failed to fork command: %s: %s", cmd->data[0], strerror(errno)); break;
    243 	case  0: {
    244 		if (execvp(cmd->data[0], cmd->data) == -1)
    245 			build_fatal("failed to exec command: %s: %s", cmd->data[0], strerror(errno));
    246 		unreachable();
    247 	} break;
    248 	}
    249 	return (iptr)result;
    250 }
    251 
    252 function b32
    253 os_wait_close_process(iptr handle)
    254 {
    255 	b32 result = 0;
    256 	for (;;) {
    257 		i32   status;
    258 		iptr wait_pid = (iptr)waitpid((i32)handle, &status, 0);
    259 		if (wait_pid == -1)
    260 			build_fatal("failed to wait on child process: %s", strerror(errno));
    261 		if (wait_pid == handle) {
    262 			if (WIFEXITED(status)) {
    263 				status = WEXITSTATUS(status);
    264 				/* TODO(rnp): logging */
    265 				result = status == 0;
    266 				break;
    267 			}
    268 			if (WIFSIGNALED(status)) {
    269 				/* TODO(rnp): logging */
    270 				result = 0;
    271 				break;
    272 			}
    273 		} else {
    274 			/* TODO(rnp): handle multiple children */
    275 			InvalidCodePath;
    276 		}
    277 	}
    278 	return result;
    279 }
    280 
    281 #elif OS_WINDOWS
    282 
    283 enum {
    284 	MOVEFILE_REPLACE_EXISTING = 0x01,
    285 };
    286 
    287 W32(b32) CreateDirectoryA(c8 *, void *);
    288 W32(b32) CreateProcessA(u8 *, u8 *, iptr, iptr, b32, u32, iptr, u8 *, iptr, iptr);
    289 W32(b32) GetExitCodeProcess(iptr handle, u32 *);
    290 W32(b32) GetFileTime(iptr, iptr, iptr, iptr);
    291 W32(b32) MoveFileExA(c8 *, c8 *, u32);
    292 
    293 function void
    294 os_make_directory(char *name)
    295 {
    296 	CreateDirectoryA(name, 0);
    297 }
    298 
    299 function b32
    300 os_rename_file(char *name, char *new)
    301 {
    302 	b32 result = MoveFileExA(name, new, MOVEFILE_REPLACE_EXISTING) != 0;
    303 	return result;
    304 }
    305 
    306 function b32
    307 os_remove_file(char *name)
    308 {
    309 	b32 result = DeleteFileA(name);
    310 	return result;
    311 }
    312 
    313 function u64
    314 os_get_filetime(char *file)
    315 {
    316 	u64 result = (u64)-1;
    317 	iptr h = CreateFileA(file, 0, 0, 0, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, 0);
    318 	if (h != INVALID_FILE) {
    319 		struct { u32 low, high; } w32_filetime;
    320 		GetFileTime(h, 0, 0, (iptr)&w32_filetime);
    321 		result = (u64)w32_filetime.high << 32ULL | w32_filetime.low;
    322 		CloseHandle(h);
    323 	}
    324 	return result;
    325 }
    326 
    327 function iptr
    328 os_spawn_process(CommandList *cmd, Stream sb)
    329 {
    330 	struct {
    331 		u32 cb;
    332 		u8 *reserved, *desktop, *title;
    333 		u32 x, y, x_size, y_size, x_count_chars, y_count_chars;
    334 		u32 fill_attr, flags;
    335 		u16 show_window, reserved_2;
    336 		u8 *reserved_3;
    337 		iptr std_input, std_output, std_error;
    338 	} w32_startup_info = {
    339 		.cb = sizeof(w32_startup_info),
    340 		.flags = 0x100,
    341 		.std_input  = GetStdHandle(STD_INPUT_HANDLE),
    342 		.std_output = GetStdHandle(STD_OUTPUT_HANDLE),
    343 		.std_error  = GetStdHandle(STD_ERROR_HANDLE),
    344 	};
    345 
    346 	struct {
    347 		iptr phandle, thandle;
    348 		u32  pid, tid;
    349 	} w32_process_info = {0};
    350 
    351 	/* TODO(rnp): warn if we need to clamp last string */
    352 	sb.widx = MIN(sb.widx, (i32)(KB(32) - 1));
    353 	if (sb.widx < sb.cap) sb.data[sb.widx]     = 0;
    354 	else                  sb.data[sb.widx - 1] = 0;
    355 
    356 	iptr result = INVALID_FILE;
    357 	if (CreateProcessA(0, sb.data, 0, 0, 1, 0, 0, 0, (iptr)&w32_startup_info,
    358 	                   (iptr)&w32_process_info))
    359 	{
    360 		CloseHandle(w32_process_info.thandle);
    361 		result = w32_process_info.phandle;
    362 	}
    363 	return result;
    364 }
    365 
    366 function b32
    367 os_wait_close_process(iptr handle)
    368 {
    369 	b32 result = WaitForSingleObject(handle, (u32)-1) != 0xFFFFFFFFUL;
    370 	if (result) {
    371 		u32 status;
    372 		GetExitCodeProcess(handle, &status);
    373 		result = status == 0;
    374 	}
    375 	CloseHandle(handle);
    376 	return result;
    377 }
    378 
    379 #endif
    380 
    381 #define needs_rebuild(b, ...) needs_rebuild_(b, ((char *[]){__VA_ARGS__}), \
    382                                              (sizeof((char *[]){__VA_ARGS__}) / sizeof(char *)))
    383 function b32
    384 needs_rebuild_(char *binary, char *deps[], iz deps_count)
    385 {
    386 	u64 binary_filetime = os_get_filetime(binary);
    387 	u64 argv0_filetime  = os_get_filetime(g_argv0);
    388 	b32 result = (binary_filetime == (u64)-1) | (argv0_filetime > binary_filetime);
    389 	for (iz i = 0; i < deps_count; i++) {
    390 		u64 filetime = os_get_filetime(deps[i]);
    391 		result |= (filetime == (u64)-1) | (filetime > binary_filetime);
    392 	}
    393 	return result;
    394 }
    395 
    396 function b32
    397 run_synchronous(Arena a, CommandList *command)
    398 {
    399 	Stream sb = arena_stream(a);
    400 	stream_push_command(&sb, command);
    401 	build_log_command("%.*s", (i32)sb.widx, sb.data);
    402 	return os_wait_close_process(os_spawn_process(command, sb));
    403 }
    404 
    405 function CommandList
    406 cmd_base(Arena *a, Options *o)
    407 {
    408 	CommandList result = {0};
    409 	cmd_append(a, &result, COMPILER);
    410 
    411 	if (!is_msvc) {
    412 		/* TODO(rnp): support cross compiling with clang */
    413 		if (!o->generic)     cmd_append(a, &result, "-march=native");
    414 		else if (is_amd64)   cmd_append(a, &result, "-march=x86-64-v3");
    415 		else if (is_aarch64) cmd_append(a, &result, "-march=armv8");
    416 	}
    417 
    418 	cmd_append(a, &result, COMMON_FLAGS, "-Iexternal/include");
    419 	if (o->debug) cmd_append(a, &result, DEBUG_FLAGS);
    420 	else          cmd_append(a, &result, OPTIMIZED_FLAGS);
    421 
    422 	/* NOTE: ancient gcc bug: https://gcc.gnu.org/bugzilla/show_bug.cgi?id=80454 */
    423 	if (is_gcc) cmd_append(a, &result, "-Wno-missing-braces");
    424 
    425 	if (is_w32 && is_clang) cmd_append(a, &result, "-fms-extensions");
    426 
    427 	if (o->debug && is_unix) cmd_append(a, &result, "-gdwarf-4");
    428 
    429 	/* NOTE(rnp): need to avoid w32-gcc for ci */
    430 	b32 sanitize = o->sanitize && !is_msvc && !(is_w32 && is_gcc);
    431 	if (sanitize) {
    432 		cmd_append(a, &result, "-fsanitize=address,undefined");
    433 		/* NOTE(rnp): impossible to autodetect on GCC versions < 14 (ci has 13) */
    434 		cmd_append(a, &result, "-DASAN_ACTIVE=1");
    435 	} else {
    436 		cmd_append(a, &result, "-DASAN_ACTIVE=0");
    437 	}
    438 	if (!sanitize && o->sanitize) build_log_warning("santizers not supported with this compiler");
    439 
    440 	return result;
    441 }
    442 
    443 function void
    444 check_rebuild_self(Arena arena, i32 argc, char *argv[])
    445 {
    446 	char *binary = shift(argv, argc);
    447 	if (needs_rebuild(binary, __FILE__, "os_win32.c", "os_linux.c", "util.c", "util.h", "beamformer_parameters.h")) {
    448 		Stream name_buffer = arena_stream(arena);
    449 		stream_append_s8s(&name_buffer, c_str_to_s8(binary), s8(".old"));
    450 		char *old_name = (char *)arena_stream_commit_zero(&arena, &name_buffer).data;
    451 
    452 		if (!os_rename_file(binary, old_name))
    453 			build_fatal("failed to move: %s -> %s", binary, old_name);
    454 
    455 		Options options = {0};
    456 		CommandList c = cmd_base(&arena, &options);
    457 		cmd_append(&arena, &c, EXTRA_FLAGS);
    458 		if (!is_msvc) cmd_append(&arena, &c, "-Wno-unused-function");
    459 		cmd_append(&arena, &c, __FILE__, OUTPUT_EXE(binary));
    460 		if (is_msvc) cmd_append(&arena, &c, "/link", "-incremental:no", "-opt:ref");
    461 		cmd_append(&arena, &c, (void *)0);
    462 		if (!run_synchronous(arena, &c)) {
    463 			os_rename_file(old_name, binary);
    464 			build_fatal("failed to rebuild self");
    465 		}
    466 		os_remove_file(old_name);
    467 
    468 		c.count = 0;
    469 		cmd_append(&arena, &c, binary);
    470 		cmd_append_count(&arena, &c, argv, argc);
    471 		cmd_append(&arena, &c, (void *)0);
    472 		if (!run_synchronous(arena, &c))
    473 			os_exit(1);
    474 
    475 		os_exit(0);
    476 	}
    477 }
    478 
    479 function b32
    480 s8_equal(s8 a, s8 b)
    481 {
    482 	b32 result = a.len == b.len;
    483 	for (iz i = 0; result && i < a.len; i++)
    484 		result = a.data[i] == b.data[i];
    485 	return result;
    486 }
    487 
    488 function void
    489 usage(char *argv0)
    490 {
    491 	printf("%s [--debug] [--sanitize] [--time]\n"
    492 	       "    --debug:       dynamically link and build with debug symbols\n"
    493 	       "    --generic:     compile for a generic target (x86-64-v3 or armv8 with NEON)\n"
    494 	       "    --sanitize:    build with ASAN and UBSAN\n"
    495 	       "    --tests:       also build programs in tests/\n"
    496 	       "    --time:        print build time\n"
    497 	       , argv0);
    498 	os_exit(0);
    499 }
    500 
    501 function Options
    502 parse_options(i32 argc, char *argv[])
    503 {
    504 	Options result = {0};
    505 
    506 	char *argv0 = shift(argv, argc);
    507 	while (argc > 0) {
    508 		char *arg = shift(argv, argc);
    509 		s8 str    = c_str_to_s8(arg);
    510 		if (s8_equal(str, s8("--debug"))) {
    511 			result.debug = 1;
    512 		} else if (s8_equal(str, s8("--generic"))) {
    513 			result.generic = 1;
    514 		} else if (s8_equal(str, s8("--sanitize"))) {
    515 			result.sanitize = 1;
    516 		} else if (s8_equal(str, s8("--tests"))) {
    517 			result.tests = 1;
    518 		} else if (s8_equal(str, s8("--time"))) {
    519 			result.time = 1;
    520 		} else {
    521 			usage(argv0);
    522 		}
    523 	}
    524 
    525 	return result;
    526 }
    527 
    528 /* NOTE(rnp): produce pdbs on w32 */
    529 function void
    530 cmd_pdb(Arena *a, CommandList *cmd, char *name)
    531 {
    532 	if (is_w32 && is_clang) {
    533 		cmd_append(a, cmd, "-fuse-ld=lld", "-g", "-gcodeview", "-Wl,--pdb=");
    534 	} else if (is_msvc) {
    535 		Stream sb = arena_stream(*a);
    536 		stream_append_s8s(&sb, s8("-PDB:"), c_str_to_s8(name), s8(".pdb"));
    537 		char *pdb = (char *)arena_stream_commit_zero(a, &sb).data;
    538 		cmd_append(a, cmd, "/link", "-incremental:no", "-opt:ref", "-DEBUG", pdb);
    539 	}
    540 }
    541 
    542 function void
    543 git_submodule_update(Arena a, char *name)
    544 {
    545 	Stream sb = arena_stream(a);
    546 	stream_append_s8s(&sb, c_str_to_s8(name), s8(OS_PATH_SEPARATOR), s8(".git"));
    547 	arena_stream_commit_zero(&a, &sb);
    548 
    549 	CommandList git = {0};
    550 	/* NOTE(rnp): cryptic bs needed to get a simple exit code if name is dirty */
    551 	cmd_append(&a, &git, "git", "diff-index", "--quiet", "HEAD", "--", name, (void *)0);
    552 	if (!os_file_exists((c8 *)sb.data) || !run_synchronous(a, &git)) {
    553 		git.count = 1;
    554 		cmd_append(&a, &git, "submodule", "update", "--init", "--depth=1", name, (void *)0);
    555 		if (!run_synchronous(a, &git))
    556 			build_fatal("failed to clone required module: %s", name);
    557 	}
    558 }
    559 
    560 function b32
    561 build_shared_library(Arena a, CommandList cc, char *name, char *output, char **libs, iz libs_count, char **srcs, iz srcs_count)
    562 {
    563 	cmd_append_count(&a, &cc, srcs, srcs_count);
    564 	cmd_append(&a, &cc, OUTPUT_DLL(output));
    565 	cmd_pdb(&a, &cc, name);
    566 	cmd_append_count(&a, &cc, libs, libs_count);
    567 	cmd_append(&a, &cc, (void *)0);
    568 	b32 result = run_synchronous(a, &cc);
    569 	if (!result) build_log_failure("%s", output);
    570 	return result;
    571 }
    572 
    573 function b32
    574 cc_single_file(Arena a, CommandList cc, char *exe, char *src, char *dest, char **tail, iz tail_count)
    575 {
    576 	char *executable[] = {src, is_msvc? "/Fe:" : "-o", dest};
    577 	char *object[]     = {is_msvc? "/c" : "-c", src, is_msvc? "/Fo:" : "-o", dest};
    578 
    579 
    580 	cmd_append_count(&a, &cc, exe? executable : object,
    581 	                 exe? countof(executable) : countof(object));
    582 	if (exe) cmd_pdb(&a, &cc, exe);
    583 	cmd_append_count(&a, &cc, tail, tail_count);
    584 	cmd_append(&a, &cc, (void *)0);
    585 	b32 result = run_synchronous(a, &cc);
    586 	if (!result) build_log_failure("%s", dest);
    587 	return result;
    588 }
    589 
    590 function b32
    591 build_static_library_from_objects(Arena a, char *name, char **flags, iz flags_count, char **objects, iz count)
    592 {
    593 	CommandList ar = {0};
    594 	cmd_append(&a, &ar, STATIC_LIBRARY_BEGIN(name));
    595 	cmd_append_count(&a, &ar, flags, flags_count);
    596 	cmd_append_count(&a, &ar, objects, count);
    597 	cmd_append(&a, &ar, (void *)0);
    598 	b32 result = run_synchronous(a, &ar);
    599 	if (!result) build_log_failure("%s", name);
    600 	return result;
    601 }
    602 
    603 function b32
    604 build_static_library(Arena a, CommandList cc, char *name, char **deps, char **outputs, iz count)
    605 {
    606 	/* TODO(rnp): refactor to not need outputs */
    607 	b32 result = 1;
    608 	for (iz i = 0; i < count; i++)
    609 		result &= cc_single_file(a, cc, 0, deps[i], outputs[i], 0, 0);
    610 	if (result) result = build_static_library_from_objects(a, name, 0, 0, outputs, count);
    611 	return result;
    612 }
    613 
    614 function b32
    615 check_build_raylib(Arena a, CommandList cc, b32 shared)
    616 {
    617 	b32 result = 1;
    618 	char *libraylib = shared ? OS_SHARED_LINK_LIB("raylib") : OUTPUT_LIB(OS_STATIC_LIB("raylib"));
    619 	if (needs_rebuild(libraylib, __FILE__, "external/include/rlgl.h", "external/raylib")) {
    620 		git_submodule_update(a, "external/raylib");
    621 		os_copy_file("external/raylib/src/rlgl.h", "external/include/rlgl.h");
    622 
    623 		if (is_unix) cmd_append(&a, &cc, "-D_GLFW_X11");
    624 		cmd_append(&a, &cc, "-DPLATFORM_DESKTOP_GLFW");
    625 		if (!is_msvc) cmd_append(&a, &cc, "-Wno-unused-but-set-variable");
    626 		cmd_append(&a, &cc, "-Iexternal/raylib/src", "-Iexternal/raylib/src/external/glfw/include");
    627 		#define RAYLIB_SOURCES \
    628 			X(rglfw)     \
    629 			X(rshapes)   \
    630 			X(rtext)     \
    631 			X(rtextures) \
    632 			X(utils)
    633 		#define X(name) "external/raylib/src/" #name ".c",
    634 		char *srcs[] = {"external/rcore_extended.c", RAYLIB_SOURCES};
    635 		#undef X
    636 		#define X(name) OUTPUT(OBJECT(#name)),
    637 		char *outs[] = {OUTPUT(OBJECT("rcore_extended")), RAYLIB_SOURCES};
    638 		#undef X
    639 
    640 		if (shared) {
    641 			char *libs[] = {LINK_LIB("user32"), LINK_LIB("shell32"), LINK_LIB("gdi32"), LINK_LIB("winmm")};
    642 			iz libs_count = is_w32 ? countof(libs) : 0;
    643 			cmd_append(&a, &cc, "-DBUILD_LIBTYPE_SHARED", "-D_GLFW_BUILD_DLL");
    644 			result = build_shared_library(a, cc, "raylib", libraylib, libs, libs_count, srcs, countof(srcs));
    645 		} else {
    646 			result = build_static_library(a, cc, libraylib, srcs, outs, countof(srcs));
    647 		}
    648 	}
    649 	return result;
    650 }
    651 
    652 function b32
    653 build_helper_library(Arena arena, CommandList cc)
    654 {
    655 	/////////////
    656 	// library
    657 	char *library = OUTPUT(OS_SHARED_LIB("ogl_beamformer_lib"));
    658 	char *libs[]  = {LINK_LIB("Synchronization")};
    659 	iz libs_count = is_w32 ? countof(libs) : 0;
    660 
    661 	if (!is_msvc) cmd_append(&arena, &cc, "-Wno-unused-function");
    662 	b32 result = build_shared_library(arena, cc, "ogl_beamformer_lib", library,
    663 	                                  libs, libs_count,
    664 	                                  arg_list(char *, "helpers/ogl_beamformer_lib.c"));
    665 	return result;
    666 }
    667 
    668 function b32
    669 build_beamformer_as_library(Arena arena, CommandList cc)
    670 {
    671 	char *library = OS_SHARED_LIB("beamformer");
    672 	char *libs[]  = {!is_msvc? "-L." : "", LINK_LIB("raylib"), LINK_LIB("gdi32"),
    673 	                 LINK_LIB("shell32"), LINK_LIB("user32"), LINK_LIB("opengl32"),
    674 	                 LINK_LIB("winmm"), LINK_LIB("Synchronization"), OUTPUT("main.lib")};
    675 	iz libs_count = is_w32 ? countof(libs) : 0;
    676 	cmd_append(&arena, &cc, "-D_BEAMFORMER_DLL");
    677 	b32 result = build_shared_library(arena, cc, "beamformer", library,
    678 	                                  libs, libs_count, arg_list(char *, "beamformer.c"));
    679 	return result;
    680 }
    681 
    682 function b32
    683 build_tests(Arena arena, CommandList cc)
    684 {
    685 	#define TEST_PROGRAMS \
    686 		X("throughput", LINK_LIB("zstd"), W32_DECL(LINK_LIB("Synchronization")))
    687 
    688 	os_make_directory(OUTPUT("tests"));
    689 	if (!is_msvc) cmd_append(&arena, &cc, "-Wno-unused-function");
    690 	cmd_append(&arena, &cc, "-I.", "-Ihelpers");
    691 
    692 	b32 result = 1;
    693 	iz cc_count = cc.count;
    694 	#define X(prog, ...) \
    695 		result &= cc_single_file(arena, cc, prog, "tests/" prog ".c", \
    696 		                         OUTPUT("tests/" prog),            \
    697 		                         arg_list(char *, ##__VA_ARGS__)); \
    698 		cc.count = cc_count;
    699 	TEST_PROGRAMS
    700 	#undef X
    701 	return result;
    702 }
    703 
    704 typedef struct {
    705 	s8 *data;
    706 	iz  count;
    707 	iz  capacity;
    708 } s8_list;
    709 
    710 function s8
    711 s8_chop(s8 *in, iz count)
    712 {
    713 	count = CLAMP(count, 0, in->len);
    714 	s8 result = {.data = in->data, .len = count};
    715 	in->data += count;
    716 	in->len  -= count;
    717 	return result;
    718 }
    719 
    720 function void
    721 s8_split(s8 str, s8 *left, s8 *right, u8 byte)
    722 {
    723 	iz i;
    724 	for (i = 0; i < str.len; i++) if (str.data[i] == byte) break;
    725 
    726 	if (left) *left = (s8){.data = str.data, .len = i};
    727 	if (right) {
    728 		right->data = str.data + i + 1;
    729 		right->len  = MAX(0, str.len - (i + 1));
    730 	}
    731 }
    732 
    733 function s8
    734 s8_trim(s8 in)
    735 {
    736 	s8 result = in;
    737 	for (iz i = 0; i < in.len && *result.data == ' '; i++) result.data++;
    738 	result.len -= result.data - in.data;
    739 	for (; result.len > 0 && result.data[result.len - 1] == ' '; result.len--);
    740 	return result;
    741 }
    742 
    743 function void
    744 s8_list_from_s8(s8_list *list, Arena *arena, s8 str)
    745 {
    746 	s8 right = str, left;
    747 	while (right.len > 0) {
    748 		s8_split(right, &left, &right, ' ');
    749 		left = s8_trim(left);
    750 		if (left.len > 0) { *da_push(arena, list) = left; }
    751 	}
    752 }
    753 
    754 typedef struct {
    755 	Stream stream;
    756 	Arena  scratch;
    757 	i32    indentation_level;
    758 } MetaprogramContext;
    759 
    760 function b32
    761 meta_write_and_reset(MetaprogramContext *m, char *file)
    762 {
    763 	b32 result = os_write_new_file(file, stream_to_s8(&m->stream));
    764 	if (!result) build_log_failure("%s", file);
    765 	m->stream.widx       = 0;
    766 	m->indentation_level = 0;
    767 	return result;
    768 }
    769 
    770 #define meta_push(m, ...) meta_push_(m, arg_list(s8, __VA_ARGS__))
    771 function void
    772 meta_push_(MetaprogramContext *m, s8 *items, iz count)
    773 {
    774 	stream_append_s8s_(&m->stream, items, count);
    775 }
    776 
    777 #define meta_pad(m, b, n)             stream_pad(&(m)->stream, (b), (n))
    778 #define meta_indent(m)                meta_pad((m), '\t', (m)->indentation_level)
    779 #define meta_begin_line(m, ...)  do { meta_indent(m); meta_push(m, __VA_ARGS__);           } while(0)
    780 #define meta_end_line(m, ...)                         meta_push(m, ##__VA_ARGS__, s8("\n"))
    781 #define meta_push_line(m, ...)   do { meta_indent(m); meta_push(m, ##__VA_ARGS__, s8("\n")); } while(0)
    782 #define meta_begin_scope(m, ...) do { meta_push_line(m, __VA_ARGS__); (m)->indentation_level++; } while(0)
    783 #define meta_end_scope(m, ...)   do { (m)->indentation_level--; meta_push_line(m, __VA_ARGS__); } while(0)
    784 #define meta_push_u64(m, n)           stream_append_u64(&(m)->stream, (n))
    785 #define meta_push_i64(m, n)           stream_append_i64(&(m)->stream, (n))
    786 #define meta_push_u64_hex(m, n)       stream_append_hex_u64(&(m)->stream, (n))
    787 
    788 #define meta_begin_matlab_class_cracker(_1, _2, FN, ...) FN
    789 #define meta_begin_matlab_class_1(m, name) meta_begin_scope(m, s8("classdef " name))
    790 #define meta_begin_matlab_class_2(m, name, type) \
    791   meta_begin_scope(m, s8("classdef " name " < " type))
    792 
    793 #define meta_begin_matlab_class(m, ...) \
    794   meta_begin_matlab_class_cracker(__VA_ARGS__, \
    795                                   meta_begin_matlab_class_2, \
    796                                   meta_begin_matlab_class_1)(m, __VA_ARGS__)
    797 
    798 function void
    799 meta_push_matlab_property(MetaprogramContext *m, s8 name, u64 length, s8 kind)
    800 {
    801 	meta_begin_line(m, name, s8("(1,"));
    802 	meta_push_u64(m, (u64)length);
    803 	meta_end_line(m, s8(")"), kind.len > 0 ? s8(" ") : s8(""), kind);
    804 }
    805 
    806 function void
    807 meta_push_matlab_enum_with_value(MetaprogramContext *m, s8 name, i32 value)
    808 {
    809 	meta_indent(m);
    810 	stream_append_s8s(&m->stream, name, s8(" ("));
    811 	stream_append_i64(&m->stream, value);
    812 	stream_append_s8(&m->stream, s8(")\n"));
    813 }
    814 
    815 function b32
    816 meta_end_and_write_matlab(MetaprogramContext *m, char *path)
    817 {
    818 	while (m->indentation_level > 0) meta_end_scope(m, s8("end"));
    819 	b32 result = meta_write_and_reset(m, path);
    820 	return result;
    821 }
    822 
    823 #define META_ENTRY_KIND_LIST \
    824 	X(Invalid)      \
    825 	X(Array)        \
    826 	X(Bake)         \
    827 	X(BakeInt)      \
    828 	X(BakeFloat)    \
    829 	X(BeginScope)   \
    830 	X(Emit)         \
    831 	X(EndScope)     \
    832 	X(Enumeration)  \
    833 	X(Expand)       \
    834 	X(Flags)        \
    835 	X(String)       \
    836 	X(Shader)       \
    837 	X(ShaderGroup)  \
    838 	X(SubShader)    \
    839 	X(Table)
    840 
    841 typedef enum {
    842 	#define X(k, ...) MetaEntryKind_## k,
    843 	META_ENTRY_KIND_LIST
    844 	#undef X
    845 	MetaEntryKind_Count,
    846 } MetaEntryKind;
    847 
    848 #define X(k, ...) #k,
    849 read_only global char *meta_entry_kind_strings[] = {META_ENTRY_KIND_LIST};
    850 #undef X
    851 
    852 typedef struct { u32 line, column; } MetaLocation;
    853 
    854 #define META_ENTRY_ARGUMENT_KIND_LIST \
    855 	X(None)   \
    856 	X(String) \
    857 	X(Array)
    858 
    859 #define X(k, ...) MetaEntryArgumentKind_## k,
    860 typedef enum {META_ENTRY_ARGUMENT_KIND_LIST} MetaEntryArgumentKind;
    861 #undef X
    862 
    863 typedef struct {
    864 	MetaEntryArgumentKind kind;
    865 	MetaLocation          location;
    866 	union {
    867 		s8 string;
    868 		struct {
    869 			s8  *strings;
    870 			u64  count;
    871 		};
    872 	};
    873 } MetaEntryArgument;
    874 
    875 typedef struct {
    876 	MetaEntryKind      kind;
    877 	u32                argument_count;
    878 	MetaEntryArgument *arguments;
    879 	s8                 name;
    880 	MetaLocation       location;
    881 } MetaEntry;
    882 
    883 typedef struct {
    884 	MetaEntry *data;
    885 	iz         count;
    886 	iz         capacity;
    887 	s8         raw;
    888 } MetaEntryStack;
    889 
    890 #define META_PARSE_TOKEN_LIST \
    891 	X('@', Entry)      \
    892 	X('`', RawString)  \
    893 	X('(', BeginArgs)  \
    894 	X(')', EndArgs)    \
    895 	X('[', BeginArray) \
    896 	X(']', EndArray)   \
    897 	X('{', BeginScope) \
    898 	X('}', EndScope)
    899 
    900 typedef enum {
    901 	MetaParseToken_EOF,
    902 	MetaParseToken_String,
    903 	#define X(__1, kind, ...) MetaParseToken_## kind,
    904 	META_PARSE_TOKEN_LIST
    905 	#undef X
    906 	MetaParseToken_Count,
    907 } MetaParseToken;
    908 
    909 typedef union {
    910 	MetaEntryKind kind;
    911 	s8            string;
    912 } MetaParseUnion;
    913 
    914 typedef struct {
    915 	s8 s;
    916 	MetaLocation location;
    917 } MetaParsePoint;
    918 
    919 typedef struct {
    920 	MetaParsePoint p;
    921 	MetaParseUnion u;
    922 	MetaParsePoint save_point;
    923 } MetaParser;
    924 
    925 global char    *compiler_file;
    926 global jmp_buf  compiler_jmp_buf;
    927 
    928 #define meta_parser_save(v)    (v)->save_point = (v)->p
    929 #define meta_parser_restore(v) swap((v)->p, (v)->save_point)
    930 #define meta_parser_commit(v)  meta_parser_restore(v)
    931 
    932 #define meta_compiler_error_message(loc, format, ...) \
    933 	fprintf(stderr, "%s:%u:%u: error: "format, compiler_file, \
    934 	        loc.line + 1, loc.column + 1, ##__VA_ARGS__)
    935 
    936 #define meta_compiler_error(loc, format, ...) do { \
    937 	meta_compiler_error_message(loc, format, ##__VA_ARGS__); \
    938 	meta_error(); \
    939 } while (0)
    940 
    941 #define meta_entry_error(e, ...) meta_entry_error_column((e), (i32)(e)->location.column, __VA_ARGS__)
    942 #define meta_entry_error_column(e, column, ...) do { \
    943 	meta_compiler_error_message((e)->location, __VA_ARGS__); \
    944 	meta_entry_print((e), 2 * (column), 0); \
    945 	meta_error(); \
    946 } while(0)
    947 
    948 #define meta_entry_pair_error(e, prefix, base_kind) \
    949 	meta_entry_error(e, prefix"@%s() in @%s()\n", \
    950 	                 meta_entry_kind_strings[(e)->kind], \
    951 	                 meta_entry_kind_strings[(base_kind)])
    952 
    953 #define meta_entry_nesting_error(e, base_kind) meta_entry_pair_error(e, "invalid nesting: ", base_kind)
    954 
    955 #define meta_entry_error_location(e, loc, ...) do { \
    956 	meta_compiler_error_message((loc), __VA_ARGS__); \
    957 	meta_entry_print((e), 1, (i32)(loc).column); \
    958 	meta_error(); \
    959 } while (0)
    960 
    961 function no_return void
    962 meta_error(void)
    963 {
    964 	assert(0);
    965 	longjmp(compiler_jmp_buf, 1);
    966 }
    967 
    968 function void
    969 meta_entry_print(MetaEntry *e, i32 indent, i32 caret)
    970 {
    971 	char *kind = meta_entry_kind_strings[e->kind];
    972 	if (e->kind == MetaEntryKind_BeginScope) kind = "{";
    973 	if (e->kind == MetaEntryKind_EndScope)   kind = "}";
    974 
    975 	fprintf(stderr, "%*s@%s", indent, "", kind);
    976 
    977 	if (e->argument_count) {
    978 		fprintf(stderr, "(");
    979 		for (u32 i = 0; i < e->argument_count; i++) {
    980 			MetaEntryArgument *a = e->arguments + i;
    981 			if (i != 0) fprintf(stderr, " ");
    982 			if (a->kind == MetaEntryArgumentKind_Array) {
    983 				fprintf(stderr, "[");
    984 				for (u64 j = 0; j < a->count; j++) {
    985 					if (j != 0) fprintf(stderr, " ");
    986 					fprintf(stderr, "%.*s", (i32)a->strings[j].len, a->strings[j].data);
    987 				}
    988 				fprintf(stderr, "]");
    989 			} else {
    990 				fprintf(stderr, "%.*s", (i32)a->string.len, a->string.data);
    991 			}
    992 		}
    993 		fprintf(stderr, ")");
    994 	}
    995 	if (e->name.len) fprintf(stderr, " %.*s", (i32)e->name.len, e->name.data);
    996 
    997 	if (caret >= 0) fprintf(stderr, "\n%*s^", indent + caret, "");
    998 
    999 	fprintf(stderr, "\n");
   1000 }
   1001 
   1002 function MetaEntryKind
   1003 meta_entry_kind_from_string(s8 s)
   1004 {
   1005 	#define X(k, ...) s8_comp(#k),
   1006 	read_only local_persist s8 kinds[] = {META_ENTRY_KIND_LIST};
   1007 	#undef X
   1008 	MetaEntryKind result = MetaEntryKind_Invalid;
   1009 	for EachNonZeroEnumValue(MetaEntryKind, kind) {
   1010 		if (s8_equal(kinds[kind], s)) {
   1011 			result = kind;
   1012 			break;
   1013 		}
   1014 	}
   1015 	return result;
   1016 }
   1017 
   1018 function void
   1019 meta_parser_trim(MetaParser *p)
   1020 {
   1021 	u8 *s, *end = p->p.s.data + p->p.s.len;
   1022 	b32 done    = 0;
   1023 	b32 comment = 0;
   1024 	for (s = p->p.s.data; !done && s != end;) {
   1025 		switch (*s) {
   1026 		case '\r': case '\t': case ' ':
   1027 		{
   1028 			p->p.location.column++;
   1029 		}break;
   1030 		case '\n':{ p->p.location.line++; p->p.location.column = 0; comment = 0; }break;
   1031 		case '/':{
   1032 			comment = ((s + 1) != end  && s[1] == '/');
   1033 		} /* FALLTHROUGH */
   1034 		default:{done = !comment;}break;
   1035 		}
   1036 		if (!done) s++;
   1037 	}
   1038 	p->p.s.data = s;
   1039 	p->p.s.len  = end - s;
   1040 }
   1041 
   1042 function s8
   1043 meta_parser_extract_raw_string(MetaParser *p)
   1044 {
   1045 	s8 result = {.data = p->p.s.data};
   1046 	for (; result.len < p->p.s.len; result.len++) {
   1047 		u8 byte = p->p.s.data[result.len];
   1048 		p->p.location.column++;
   1049 		if (byte == '`') {
   1050 			break;
   1051 		} else if (byte == '\n') {
   1052 			p->p.location.column = 0;
   1053 			p->p.location.line++;
   1054 		}
   1055 	}
   1056 	p->p.s.data += (result.len + 1);
   1057 	p->p.s.len  -= (result.len + 1);
   1058 	return result;
   1059 }
   1060 
   1061 function s8
   1062 meta_parser_extract_string(MetaParser *p)
   1063 {
   1064 	s8 result = {.data = p->p.s.data};
   1065 	for (; result.len < p->p.s.len; result.len++) {
   1066 		b32 done = 0;
   1067 		switch (p->p.s.data[result.len]) {
   1068 		#define X(t, ...) case t:
   1069 		META_PARSE_TOKEN_LIST
   1070 		#undef X
   1071 		case ' ': case '\n': case '\r': case '\t':
   1072 		{done = 1;}break;
   1073 		case '/':{
   1074 			done = (result.len + 1 < p->p.s.len) && (p->p.s.data[result.len + 1] == '/');
   1075 		}break;
   1076 		default:{}break;
   1077 		}
   1078 		if (done) break;
   1079 	}
   1080 	p->p.location.column += (u32)result.len;
   1081 	p->p.s.data          += result.len;
   1082 	p->p.s.len           -= result.len;
   1083 	return result;
   1084 }
   1085 
   1086 function s8
   1087 meta_parser_token_name(MetaParser *p, MetaParseToken t)
   1088 {
   1089 	s8 result = s8("\"invalid\"");
   1090 	read_only local_persist s8 names[MetaParseToken_Count] = {
   1091 		[MetaParseToken_EOF] = s8_comp("\"EOF\""),
   1092 		#define X(k, v, ...) [MetaParseToken_## v] = s8_comp(#k),
   1093 		META_PARSE_TOKEN_LIST
   1094 		#undef X
   1095 	};
   1096 	if (t >= 0 && t < countof(names))  result = names[t];
   1097 	if (t == MetaParseToken_String)    result = p->u.string;
   1098 	if (t == MetaParseToken_RawString) result = (s8){.data = p->u.string.data - 1, .len = p->u.string.len + 1};
   1099 	return result;
   1100 }
   1101 
   1102 function MetaParseToken
   1103 meta_parser_token(MetaParser *p)
   1104 {
   1105 	MetaParseToken result = MetaParseToken_EOF;
   1106 	meta_parser_save(p);
   1107 	if (p->p.s.len > 0) {
   1108 		b32 chop = 1;
   1109 		switch (p->p.s.data[0]) {
   1110 		#define X(t, kind, ...) case t:{ result = MetaParseToken_## kind; }break;
   1111 		META_PARSE_TOKEN_LIST
   1112 		#undef X
   1113 		default:{ result = MetaParseToken_String; chop = 0; }break;
   1114 		}
   1115 		if (chop) { s8_chop(&p->p.s, 1); p->p.location.column++; }
   1116 
   1117 		if (result != MetaParseToken_RawString) meta_parser_trim(p);
   1118 		switch (result) {
   1119 		case MetaParseToken_RawString:{ p->u.string = meta_parser_extract_raw_string(p); }break;
   1120 		case MetaParseToken_String:{    p->u.string = meta_parser_extract_string(p);     }break;
   1121 
   1122 		/* NOTE(rnp): '{' and '}' are shorthand for @BeginScope and @EndScope */
   1123 		case MetaParseToken_BeginScope:{ p->u.kind = MetaEntryKind_BeginScope; }break;
   1124 		case MetaParseToken_EndScope:{   p->u.kind = MetaEntryKind_EndScope;   }break;
   1125 
   1126 		/* NOTE(rnp): loose '[' implies implicit @Array() */
   1127 		case MetaParseToken_BeginArray:{ p->u.kind = MetaEntryKind_Array; }break;
   1128 
   1129 		case MetaParseToken_Entry:{
   1130 			s8 kind = meta_parser_extract_string(p);
   1131 			p->u.kind = meta_entry_kind_from_string(kind);
   1132 			if (p->u.kind == MetaEntryKind_Invalid) {
   1133 				meta_compiler_error(p->p.location, "invalid keyword: @%.*s\n", (i32)kind.len, kind.data);
   1134 			}
   1135 		}break;
   1136 		default:{}break;
   1137 		}
   1138 		meta_parser_trim(p);
   1139 	}
   1140 
   1141 	return result;
   1142 }
   1143 
   1144 function MetaParseToken
   1145 meta_parser_peek_token(MetaParser *p)
   1146 {
   1147 	MetaParseToken result = meta_parser_token(p);
   1148 	meta_parser_restore(p);
   1149 	return result;
   1150 }
   1151 
   1152 function void
   1153 meta_parser_unexpected_token(MetaParser *p, MetaParseToken t)
   1154 {
   1155 	meta_parser_restore(p);
   1156 	s8 token_name = meta_parser_token_name(p, t);
   1157 	meta_compiler_error(p->p.location, "unexpected token: %.*s\n", (i32)token_name.len, token_name.data);
   1158 }
   1159 
   1160 function void
   1161 meta_parser_fill_argument_array(MetaParser *p, MetaEntryArgument *array, Arena *arena)
   1162 {
   1163 	array->kind     = MetaEntryArgumentKind_Array;
   1164 	array->strings  = arena_aligned_start(*arena, alignof(s8));
   1165 	array->location = p->p.location;
   1166 	for (MetaParseToken token = meta_parser_token(p);
   1167 	     token != MetaParseToken_EndArray;
   1168 	     token = meta_parser_token(p))
   1169 	{
   1170 		switch (token) {
   1171 		case MetaParseToken_RawString:
   1172 		case MetaParseToken_String:
   1173 		{
   1174 			assert((u8 *)(array->strings + array->count) == arena->beg);
   1175 			*push_struct(arena, s8) = p->u.string;
   1176 			array->count++;
   1177 		}break;
   1178 		default:{ meta_parser_unexpected_token(p, token); }break;
   1179 		}
   1180 	}
   1181 }
   1182 
   1183 function void
   1184 meta_parser_arguments(MetaParser *p, MetaEntry *e, Arena *arena)
   1185 {
   1186 	if (meta_parser_peek_token(p) == MetaParseToken_BeginArgs) {
   1187 		meta_parser_commit(p);
   1188 
   1189 		e->arguments = arena_aligned_start(*arena, alignof(MetaEntryArgument));
   1190 		for (MetaParseToken token = meta_parser_token(p);
   1191 		     token != MetaParseToken_EndArgs;
   1192 		     token = meta_parser_token(p))
   1193 		{
   1194 			e->argument_count++;
   1195 			MetaEntryArgument *arg = push_struct(arena, MetaEntryArgument);
   1196 			switch (token) {
   1197 			case MetaParseToken_RawString:
   1198 			case MetaParseToken_String:
   1199 			{
   1200 				arg->kind     = MetaEntryArgumentKind_String;
   1201 				arg->string   = p->u.string;
   1202 				arg->location = p->p.location;
   1203 			}break;
   1204 			case MetaParseToken_BeginArray:{
   1205 				meta_parser_fill_argument_array(p, arg, arena);
   1206 			}break;
   1207 			default:{ meta_parser_unexpected_token(p, token); }break;
   1208 			}
   1209 		}
   1210 	}
   1211 }
   1212 
   1213 typedef struct {
   1214 	MetaEntry *start;
   1215 	MetaEntry *one_past_last;
   1216 	iz consumed;
   1217 } MetaEntryScope;
   1218 
   1219 function MetaEntryScope
   1220 meta_entry_extract_scope(MetaEntry *base, iz entry_count)
   1221 {
   1222 	assert(base->kind != MetaEntryKind_BeginScope || base->kind != MetaEntryKind_EndScope);
   1223 	assert(entry_count > 0);
   1224 
   1225 	MetaEntryScope result = {.start = base + 1, .consumed = 1};
   1226 	iz sub_scope = 0;
   1227 	for (MetaEntry *e = result.start; result.consumed < entry_count; result.consumed++, e++) {
   1228 		switch (e->kind) {
   1229 		case MetaEntryKind_BeginScope:{ sub_scope++; }break;
   1230 		case MetaEntryKind_EndScope:{   sub_scope--; }break;
   1231 		default:{}break;
   1232 		}
   1233 		if (sub_scope == 0) break;
   1234 	}
   1235 
   1236 	if (sub_scope != 0)
   1237 		meta_entry_error(base, "unclosed scope for entry\n");
   1238 
   1239 	result.one_past_last = base + result.consumed;
   1240 	if (result.start->kind == MetaEntryKind_BeginScope) result.start++;
   1241 	if (result.one_past_last == result.start) result.one_past_last++;
   1242 
   1243 	return result;
   1244 }
   1245 
   1246 function MetaEntryStack
   1247 meta_entry_stack_from_file(Arena *arena, Arena scratch, char *file)
   1248 {
   1249 	MetaParser     parser = {.p.s = os_read_whole_file(arena, file)};
   1250 	MetaEntryStack result = {.raw = parser.p.s};
   1251 
   1252 	compiler_file = file;
   1253 
   1254 	meta_parser_trim(&parser);
   1255 
   1256 	for (MetaParseToken token = meta_parser_token(&parser);
   1257 	     token != MetaParseToken_EOF;
   1258 	     token = meta_parser_token(&parser))
   1259 	{
   1260 		MetaEntry *e = da_push(arena, &result);
   1261 		switch (token) {
   1262 		case MetaParseToken_RawString:{
   1263 			e->kind     = MetaEntryKind_String;
   1264 			e->location = parser.save_point.location;
   1265 			e->name     = parser.u.string;
   1266 		}break;
   1267 		case MetaParseToken_BeginArray:
   1268 		case MetaParseToken_BeginScope:
   1269 		case MetaParseToken_EndScope:
   1270 		case MetaParseToken_Entry:
   1271 		{
   1272 			e->kind     = parser.u.kind;
   1273 			e->location = parser.save_point.location;
   1274 
   1275 			if (token == MetaParseToken_Entry)
   1276 				meta_parser_arguments(&parser, e, arena);
   1277 
   1278 			if (token == MetaParseToken_BeginArray) {
   1279 				MetaEntryArgument *a = e->arguments = push_struct(arena, MetaEntryArgument);
   1280 				e->argument_count = 1;
   1281 				meta_parser_fill_argument_array(&parser, a, arena);
   1282 			}
   1283 
   1284 			if (meta_parser_peek_token(&parser) == MetaParseToken_String) {
   1285 				meta_parser_commit(&parser);
   1286 				e->name = parser.u.string;
   1287 			}
   1288 		}break;
   1289 
   1290 		default:{ meta_parser_unexpected_token(&parser, token); }break;
   1291 		}
   1292 	}
   1293 
   1294 	return result;
   1295 }
   1296 
   1297 #define meta_entry_argument_expected(e, ...) \
   1298 	meta_entry_argument_expected_((e), arg_list(s8, __VA_ARGS__))
   1299 function void
   1300 meta_entry_argument_expected_(MetaEntry *e, s8 *args, uz count)
   1301 {
   1302 	if (e->argument_count != count) {
   1303 		meta_compiler_error_message(e->location, "incorrect argument count for entry %s() got: %u expected: %u\n",
   1304 		                            meta_entry_kind_strings[e->kind], e->argument_count, (u32)count);
   1305 		fprintf(stderr, "  format: @%s(", meta_entry_kind_strings[e->kind]);
   1306 		for (uz i = 0; i < count; i++) {
   1307 			if (i != 0) fprintf(stderr, ", ");
   1308 			fprintf(stderr, "%.*s", (i32)args[i].len, args[i].data);
   1309 		}
   1310 		fprintf(stderr, ")\n");
   1311 		meta_error();
   1312 	}
   1313 }
   1314 
   1315 function MetaEntryArgument
   1316 meta_entry_argument_expect(MetaEntry *e, u32 index, MetaEntryArgumentKind kind)
   1317 {
   1318 	#define X(k, ...) #k,
   1319 	read_only local_persist char *kinds[] = {META_ENTRY_ARGUMENT_KIND_LIST};
   1320 	#undef X
   1321 
   1322 	assert(e->argument_count > index);
   1323 	MetaEntryArgument result = e->arguments[index];
   1324 
   1325 	if (result.kind != kind) {
   1326 		meta_entry_error_location(e, result.location, "unexpected argument kind: expected %s but got: %s\n",
   1327 		                          kinds[kind], kinds[result.kind]);
   1328 	}
   1329 
   1330 	if (kind == MetaEntryArgumentKind_Array && result.count == 0)
   1331 		meta_entry_error_location(e, result.location, "array arguments must have at least 1 element\n");
   1332 
   1333 	return result;
   1334 }
   1335 
   1336 typedef struct {
   1337 	s8_list *data;
   1338 	iz       count;
   1339 	iz       capacity;
   1340 } s8_list_table;
   1341 
   1342 typedef struct {
   1343 	s8  *names_upper;
   1344 	s8  *names_lower;
   1345 	u8  *floating_point;
   1346 	u32  entry_count;
   1347 	u32  shader_id;
   1348 } MetaShaderBakeParameters;
   1349 DA_STRUCT(MetaShaderBakeParameters, MetaShaderBakeParameters);
   1350 
   1351 typedef struct {
   1352 	iz kind;
   1353 	iz variation;
   1354 } MetaEnumeration;
   1355 
   1356 typedef struct {
   1357 	u32 *data;
   1358 	iz   count;
   1359 	iz   capacity;
   1360 } MetaIDList;
   1361 
   1362 typedef struct {
   1363 	MetaIDList                global_flag_ids;
   1364 	MetaIDList                global_enumeration_ids;
   1365 	MetaShaderBakeParameters *bake_parameters;
   1366 	u32                       name_id;
   1367 	u32                       flag_list_id;
   1368 	i32                       base_shader_id;
   1369 } MetaShader;
   1370 DA_STRUCT(MetaShader, MetaShader);
   1371 
   1372 typedef struct {
   1373 	MetaShader *shader;
   1374 	MetaIDList  sub_shaders;
   1375 	s8          file;
   1376 } MetaBaseShader;
   1377 DA_STRUCT(MetaBaseShader, MetaBaseShader);
   1378 
   1379 typedef struct {
   1380 	s8         name;
   1381 	MetaIDList shaders;
   1382 } MetaShaderGroup;
   1383 DA_STRUCT(MetaShaderGroup, MetaShaderGroup);
   1384 
   1385 typedef struct {
   1386 	s8  *fields;
   1387 	s8 **entries;
   1388 	u32 field_count;
   1389 	u32 entry_count;
   1390 	u32 table_name_id;
   1391 } MetaTable;
   1392 DA_STRUCT(MetaTable, MetaTable);
   1393 
   1394 typedef enum {
   1395 	MetaExpansionPartKind_Reference,
   1396 	MetaExpansionPartKind_String,
   1397 } MetaExpansionPartKind;
   1398 
   1399 typedef struct {
   1400 	s8 *strings;
   1401 	MetaExpansionPartKind kind;
   1402 } MetaExpansionPart;
   1403 DA_STRUCT(MetaExpansionPart, MetaExpansionPart);
   1404 
   1405 typedef enum {
   1406 	MetaEmitOperationKind_String,
   1407 	MetaEmitOperationKind_Expand,
   1408 } MetaEmitOperationKind;
   1409 
   1410 typedef struct {
   1411 	MetaExpansionPart *parts;
   1412 	u32 part_count;
   1413 	u32 table_id;
   1414 } MetaEmitOperationExpansion;
   1415 
   1416 typedef struct {
   1417 	union {
   1418 		s8 string;
   1419 		MetaEmitOperationExpansion expansion_operation;
   1420 	};
   1421 	MetaEmitOperationKind kind;
   1422 } MetaEmitOperation;
   1423 DA_STRUCT(MetaEmitOperation, MetaEmitOperation);
   1424 
   1425 typedef struct {
   1426 	MetaEmitOperationList *data;
   1427 	iz count;
   1428 	iz capacity;
   1429 } MetaEmitOperationListSet;
   1430 
   1431 typedef struct {
   1432 	Arena *arena, scratch;
   1433 
   1434 	s8_list                      enumeration_kinds;
   1435 	s8_list_table                enumeration_members;
   1436 
   1437 	s8_list_table                flags_for_shader;
   1438 
   1439 	s8_list                      table_names;
   1440 	MetaTableList                tables;
   1441 
   1442 	MetaEmitOperationListSet     emit_sets;
   1443 
   1444 	MetaShaderBakeParametersList shader_bake_parameters;
   1445 	MetaShaderGroupList          shader_groups;
   1446 	MetaShaderList               shaders;
   1447 	MetaBaseShaderList           base_shaders;
   1448 	s8_list                      shader_names;
   1449 } MetaContext;
   1450 
   1451 function iz
   1452 meta_lookup_string_slow(s8_list *sv, s8 s)
   1453 {
   1454 	// TODO(rnp): obviously this is slow
   1455 	iz result = -1;
   1456 	for (iz i = 0; i < sv->count; i++) {
   1457 		if (s8_equal(s, sv->data[i])) {
   1458 			result = i;
   1459 			break;
   1460 		}
   1461 	}
   1462 	return result;
   1463 }
   1464 
   1465 function iz
   1466 meta_lookup_id_slow(MetaIDList *v, u32 id)
   1467 {
   1468 	// TODO(rnp): obviously this is slow
   1469 	iz result = -1;
   1470 	for (iz i = 0; i < v->count; i++) {
   1471 		if (id == v->data[i]) {
   1472 			result = i;
   1473 			break;
   1474 		}
   1475 	}
   1476 	return result;
   1477 }
   1478 
   1479 function iz
   1480 meta_intern_string(MetaContext *ctx, s8_list *sv, s8 s)
   1481 {
   1482 	iz result = meta_lookup_string_slow(sv, s);
   1483 	if (result < 0) {
   1484 		*da_push(ctx->arena, sv) = s;
   1485 		result = sv->count - 1;
   1486 	}
   1487 	return result;
   1488 }
   1489 
   1490 function iz
   1491 meta_intern_id(MetaContext *ctx, MetaIDList *v, u32 id)
   1492 {
   1493 	iz result = meta_lookup_id_slow(v, id);
   1494 	if (result < 0) {
   1495 		*da_push(ctx->arena, v) = id;
   1496 		result = v->count - 1;
   1497 	}
   1498 	return result;
   1499 }
   1500 
   1501 function iz
   1502 meta_pack_shader_bake_parameters(MetaContext *ctx, MetaEntry *e, iz entry_count, u32 shader_id, u32 *table_id)
   1503 {
   1504 	assert(e->kind == MetaEntryKind_Bake);
   1505 
   1506 	MetaShaderBakeParameters *bp = da_push(ctx->arena, &ctx->shader_bake_parameters);
   1507 	bp->shader_id = shader_id;
   1508 	if (table_id) *table_id = (u32)da_index(bp, &ctx->shader_bake_parameters);
   1509 
   1510 	if (e->argument_count) meta_entry_argument_expected(e);
   1511 
   1512 	MetaEntryScope scope = meta_entry_extract_scope(e, entry_count);
   1513 	if (scope.consumed > 1) {
   1514 		for (MetaEntry *row = scope.start; row != scope.one_past_last; row++) {
   1515 			if (row->kind != MetaEntryKind_BakeInt && row->kind != MetaEntryKind_BakeFloat)
   1516 				meta_entry_nesting_error(row, MetaEntryKind_Bake);
   1517 			meta_entry_argument_expected(row, s8("name"), s8("name_lower"));
   1518 			bp->entry_count++;
   1519 		}
   1520 
   1521 		bp->names_upper    = push_array(ctx->arena, s8, bp->entry_count);
   1522 		bp->names_lower    = push_array(ctx->arena, s8, bp->entry_count);
   1523 		bp->floating_point = push_array(ctx->arena, u8, bp->entry_count);
   1524 
   1525 		u32 row_index = 0;
   1526 		for (MetaEntry *row = scope.start; row != scope.one_past_last; row++, row_index++) {
   1527 			bp->names_upper[row_index]    = row->arguments[0].string;
   1528 			bp->names_lower[row_index]    = row->arguments[1].string;
   1529 			bp->floating_point[row_index] = row->kind == MetaEntryKind_BakeFloat;
   1530 		}
   1531 	}
   1532 
   1533 	return scope.consumed;
   1534 }
   1535 
   1536 function iz
   1537 meta_enumeration_id(MetaContext *ctx, s8 kind)
   1538 {
   1539 	iz result = meta_intern_string(ctx, &ctx->enumeration_kinds, kind);
   1540 	if (ctx->enumeration_kinds.count != ctx->enumeration_members.count) {
   1541 		da_push(ctx->arena, &ctx->enumeration_members);
   1542 		assert(result == (ctx->enumeration_members.count - 1));
   1543 	}
   1544 	return result;
   1545 }
   1546 
   1547 function void
   1548 meta_extend_enumeration(MetaContext *ctx, s8 kind, s8 *variations, uz count)
   1549 {
   1550 	iz kidx = meta_enumeration_id(ctx, kind);
   1551 	/* NOTE(rnp): may overcommit if duplicates exist in variations */
   1552 	da_reserve(ctx->arena, ctx->enumeration_members.data + kidx, (iz)count);
   1553 	for (uz i = 0; i < count; i++)
   1554 		meta_intern_string(ctx, ctx->enumeration_members.data + kidx, variations[i]);
   1555 }
   1556 
   1557 function MetaEnumeration
   1558 meta_commit_enumeration(MetaContext *ctx, s8 kind, s8 variation)
   1559 {
   1560 	iz kidx = meta_enumeration_id(ctx, kind);
   1561 	iz vidx = meta_intern_string(ctx, ctx->enumeration_members.data + kidx, variation);
   1562 	MetaEnumeration result = {.kind = kidx, .variation = vidx};
   1563 	return result;
   1564 }
   1565 
   1566 function u16
   1567 meta_pack_shader_name(MetaContext *ctx, s8 base_name, MetaLocation loc)
   1568 {
   1569 	iz result = meta_intern_string(ctx, &ctx->shader_names, base_name);
   1570 	if (result > (iz)U16_MAX)
   1571 		meta_compiler_error(loc, "maximum base shaders exceeded: limit: %lu\n", U16_MAX);
   1572 	return (u16)result;
   1573 }
   1574 
   1575 function u8
   1576 meta_commit_shader_flag(MetaContext *ctx, u32 flag_list_id, s8 flag, MetaEntry *e)
   1577 {
   1578 	assert(flag_list_id < ctx->flags_for_shader.count);
   1579 	iz index = meta_intern_string(ctx, ctx->flags_for_shader.data + flag_list_id, flag);
   1580 	if (index > 31) meta_entry_error(e, "maximum shader local flags exceeded: limit: 32\n");
   1581 	u8 result = (u8)index;
   1582 	return result;
   1583 }
   1584 
   1585 function iz
   1586 meta_pack_shader(MetaContext *ctx, MetaShaderGroup *sg, Arena scratch, MetaEntry *entries, iz entry_count)
   1587 {
   1588 	assert(entries[0].kind == MetaEntryKind_Shader);
   1589 
   1590 	MetaShader *s = da_push(ctx->arena, &ctx->shaders);
   1591 	*da_push(ctx->arena, &sg->shaders) = (u32)da_index(s, &ctx->shaders);
   1592 	{
   1593 		s8_list *flag_list = da_push(ctx->arena, &ctx->flags_for_shader);
   1594 		s->flag_list_id    = (u32)da_index(flag_list, &ctx->flags_for_shader);
   1595 	}
   1596 	s->name_id        = meta_pack_shader_name(ctx, entries->name, entries->location);
   1597 	s->base_shader_id = -1;
   1598 
   1599 	MetaBaseShader *base_shader = 0;
   1600 	if (entries->argument_count > 1) {
   1601 		meta_entry_argument_expected(entries, s8("[file_name]"));
   1602 	} else if (entries->argument_count == 1) {
   1603 		base_shader = da_push(ctx->arena, &ctx->base_shaders);
   1604 		base_shader->file = meta_entry_argument_expect(entries, 0, MetaEntryArgumentKind_String).string;
   1605 		base_shader->shader = s;
   1606 		s->base_shader_id = (i32)da_index(base_shader, &ctx->base_shaders);
   1607 	}
   1608 
   1609 	i32 stack_items[32];
   1610 	struct { i32 *data; iz capacity; iz count; } stack = {stack_items, countof(stack_items), 0};
   1611 
   1612 	iz result;
   1613 	b32 in_sub_shader = 0;
   1614 	for (result = 0; result < entry_count; result++) {
   1615 		MetaEntry *e = entries + result;
   1616 		switch (e->kind) {
   1617 		case MetaEntryKind_BeginScope:{}break;
   1618 		case MetaEntryKind_SubShader:{
   1619 			if (in_sub_shader) goto error;
   1620 			in_sub_shader = 1;
   1621 		} /* FALLTHROUGH */
   1622 		case MetaEntryKind_Shader:
   1623 		{
   1624 			*da_push(&scratch, &stack) = (i32)result;
   1625 			if ((result + 1 < entry_count) && entries[result + 1].kind == MetaEntryKind_BeginScope)
   1626 				break;
   1627 		} /* FALLTHROUGH */
   1628 		case MetaEntryKind_EndScope:{
   1629 			i32 index = stack.data[--stack.count];
   1630 			MetaEntry *ended = entries + index;
   1631 			if (index != 0) {
   1632 				if (stack.count > 0 && entries[stack.data[stack.count - 1]].kind == MetaEntryKind_Shader) {
   1633 					if (ended->kind == MetaEntryKind_SubShader) {
   1634 						if (!base_shader) {
   1635 							meta_entry_error(ended, "invalid nesting: @%s in @%s\n"
   1636 							                 "@%s only allowed in base shaders (shaders with a backing file)\n",
   1637 							                 meta_entry_kind_strings[ended->kind],
   1638 							                 meta_entry_kind_strings[MetaEntryKind_Shader],
   1639 							                 meta_entry_kind_strings[ended->kind]);
   1640 						}
   1641 						MetaShader *ss = da_push(ctx->arena, &ctx->shaders);
   1642 						u32 sid = (u32)da_index(ss, &ctx->shaders);
   1643 						*da_push(ctx->arena, &sg->shaders) = sid;
   1644 						*da_push(ctx->arena, &base_shader->sub_shaders) = sid;
   1645 
   1646 						ss->flag_list_id   = s->flag_list_id;
   1647 						ss->base_shader_id = s->base_shader_id;
   1648 						ss->name_id        = meta_pack_shader_name(ctx, ended->name, ended->location);
   1649 						meta_commit_shader_flag(ctx, s->flag_list_id, ended->name, ended);
   1650 						in_sub_shader = 0;
   1651 					}
   1652 				}
   1653 			}
   1654 		}break;
   1655 		case MetaEntryKind_Enumeration:{
   1656 			meta_entry_argument_expected(e, s8("kind"));
   1657 			s8 kind = meta_entry_argument_expect(e, 0, MetaEntryArgumentKind_String).string;
   1658 			iz kid  = meta_enumeration_id(ctx, kind);
   1659 			meta_intern_id(ctx, &s->global_enumeration_ids, (u32)kid);
   1660 		}break;
   1661 		case MetaEntryKind_Flags:{
   1662 			meta_entry_argument_expected(e, s8("[flag ...]"));
   1663 			MetaEntryArgument flags = meta_entry_argument_expect(e, 0, MetaEntryArgumentKind_Array);
   1664 			for (u32 index = 0; index < flags.count; index++)
   1665 				meta_commit_shader_flag(ctx, s->flag_list_id, flags.strings[index], e);
   1666 		}break;
   1667 		case MetaEntryKind_Bake:{
   1668 			if (s->bake_parameters) {
   1669 				meta_entry_error(e, "invalid @%s in @%s: only one @%s allowed per @%s\n",
   1670 				                 meta_entry_kind_strings[e->kind], meta_entry_kind_strings[MetaEntryKind_Shader],
   1671 				                 meta_entry_kind_strings[e->kind], meta_entry_kind_strings[MetaEntryKind_Shader]);
   1672 			}
   1673 			u32 table_id;
   1674 			result += meta_pack_shader_bake_parameters(ctx, e, entry_count - result, (u32)da_index(s, &ctx->shaders), &table_id);
   1675 			s->bake_parameters = ctx->shader_bake_parameters.data + table_id;
   1676 		}break;
   1677 
   1678 		default:
   1679 		error:
   1680 		{
   1681 			meta_entry_nesting_error(e, MetaEntryKind_Shader);
   1682 		}break;
   1683 		}
   1684 		if (stack.count == 0)
   1685 			break;
   1686 	}
   1687 
   1688 	return result;
   1689 }
   1690 
   1691 function void
   1692 meta_expansion_string_split(s8 string, s8 *left, s8 *inner, s8 *remainder, MetaLocation loc)
   1693 {
   1694 	b32 found = 0;
   1695 	for (u8 *s = string.data, *e = s + string.len; (s + 1) != e; s++) {
   1696 		u32 val  = (u32)'$'  << 8u | (u32)'(';
   1697 		u32 test = (u32)s[0] << 8u | s[1];
   1698 		if (test == val) {
   1699 			if (left) {
   1700 				left->data = string.data;
   1701 				left->len  = s - string.data;
   1702 			}
   1703 
   1704 			u8 *start = s + 2;
   1705 			while (s != e && *s != ')') s++;
   1706 			if (s == e) {
   1707 				meta_compiler_error_message(loc, "unterminated expansion in raw string:\n  %.*s\n",
   1708 				                            (i32)string.len, string.data);
   1709 				fprintf(stderr, "  %.*s^\n", (i32)(start - string.data), "");
   1710 				meta_error();
   1711 			}
   1712 
   1713 			if (inner) {
   1714 				inner->data = start;
   1715 				inner->len  = s - start;
   1716 			}
   1717 
   1718 			if (remainder) {
   1719 				remainder->data = s + 1;
   1720 				remainder->len  = string.len - (remainder->data - string.data);
   1721 			}
   1722 			found = 1;
   1723 			break;
   1724 		}
   1725 	}
   1726 	if (!found) {
   1727 		if (left)      *left      = string;
   1728 		if (inner)     *inner     = (s8){0};
   1729 		if (remainder) *remainder = (s8){0};
   1730 	}
   1731 }
   1732 
   1733 function MetaExpansionPart *
   1734 meta_push_expansion_part(MetaContext *ctx, Arena *arena, MetaExpansionPartList *parts,
   1735                          MetaExpansionPartKind kind, s8 string, MetaTable *t, MetaLocation loc)
   1736 {
   1737 	MetaExpansionPart *result = da_push(arena, parts);
   1738 	result->kind = kind;
   1739 	if (kind == MetaExpansionPartKind_String) {
   1740 		result->strings    = push_struct(arena, s8);
   1741 		result->strings[0] = string;
   1742 	} else {
   1743 		iz index = -1;
   1744 		for (u32 field = 0; field < t->field_count; field++) {
   1745 			if (s8_equal(string, t->fields[field])) {
   1746 				index = (iz)field;
   1747 				break;
   1748 			}
   1749 		}
   1750 		result->strings = t->entries[index];
   1751 		if (index < 0) {
   1752 			/* TODO(rnp): fix this location to point directly at the field in the string */
   1753 			s8 table_name = ctx->table_names.data[t->table_name_id];
   1754 			meta_compiler_error(loc, "table \"%.*s\" does not contain member: %.*s\n",
   1755 			                    (i32)table_name.len, table_name.data, (i32)string.len, string.data);
   1756 		}
   1757 	}
   1758 	return result;
   1759 }
   1760 
   1761 function MetaExpansionPartList
   1762 meta_generate_expansion_set(MetaContext *ctx, Arena *arena, s8 expansion_string, MetaTable *t, MetaLocation loc)
   1763 {
   1764 	MetaExpansionPartList result = {0};
   1765 	s8 left = {0}, inner, remainder = expansion_string;
   1766 	do {
   1767 		meta_expansion_string_split(remainder, &left, &inner, &remainder, loc);
   1768 		if (left.len)  meta_push_expansion_part(ctx, arena, &result, MetaExpansionPartKind_String,    left,  t, loc);
   1769 		if (inner.len) meta_push_expansion_part(ctx, arena, &result, MetaExpansionPartKind_Reference, inner, t, loc);
   1770 	} while (remainder.len);
   1771 	return result;
   1772 }
   1773 
   1774 function iz
   1775 meta_expand(MetaContext *ctx, Arena scratch, MetaEntry *e, iz entry_count, MetaEmitOperationList *ops)
   1776 {
   1777 	assert(e->kind == MetaEntryKind_Expand);
   1778 
   1779 	/* TODO(rnp): for now this requires that the @Table came first */
   1780 	meta_entry_argument_expected(e, s8("table_name"));
   1781 	s8 table_name = meta_entry_argument_expect(e, 0, MetaEntryArgumentKind_String).string;
   1782 
   1783 	MetaTable *t = ctx->tables.data + meta_lookup_string_slow(&ctx->table_names, table_name);
   1784 	if (t < ctx->tables.data)
   1785 		meta_entry_error(e, "undefined table %.*s\n", (i32)table_name.len, table_name.data);
   1786 
   1787 	MetaEntryScope scope = meta_entry_extract_scope(e, entry_count);
   1788 	for (MetaEntry *row = scope.start; row != scope.one_past_last; row++) {
   1789 		switch (row->kind) {
   1790 		case MetaEntryKind_String:{
   1791 			if (!ops) goto error;
   1792 
   1793 			MetaExpansionPartList parts = meta_generate_expansion_set(ctx, ctx->arena, row->name, t, row->location);
   1794 
   1795 			MetaEmitOperation *op = da_push(ctx->arena, ops);
   1796 			op->kind = MetaEmitOperationKind_Expand;
   1797 			op->expansion_operation.parts      = parts.data;
   1798 			op->expansion_operation.part_count = (u32)parts.count;
   1799 			op->expansion_operation.table_id   = (u32)da_index(t,	&ctx->tables);
   1800 		}break;
   1801 		case MetaEntryKind_Enumeration:{
   1802 			if (ops) meta_entry_nesting_error(row, MetaEntryKind_Emit);
   1803 
   1804 			meta_entry_argument_expected(row, s8("kind"), s8("`raw_string`"));
   1805 			s8 kind   = meta_entry_argument_expect(row, 0, MetaEntryArgumentKind_String).string;
   1806 			s8 expand = meta_entry_argument_expect(row, 1, MetaEntryArgumentKind_String).string;
   1807 
   1808 			MetaExpansionPartList parts = meta_generate_expansion_set(ctx, &scratch, expand, t, row->location);
   1809 			s8 *variations = push_array(&scratch, s8, t->entry_count);
   1810 			for (u32 expansion = 0; expansion < t->entry_count; expansion++) {
   1811 				Stream sb = arena_stream(*ctx->arena);
   1812 				for (iz part = 0; part < parts.count; part++) {
   1813 					MetaExpansionPart *p = parts.data + part;
   1814 					u32 index = 0;
   1815 					if (p->kind == MetaExpansionPartKind_Reference) index = expansion;
   1816 					stream_append_s8(&sb, p->strings[index]);
   1817 				}
   1818 				variations[expansion] = arena_stream_commit(ctx->arena, &sb);
   1819 			}
   1820 			meta_extend_enumeration(ctx, kind, variations, t->entry_count);
   1821 		}break;
   1822 		error:
   1823 		default:
   1824 		{
   1825 			meta_entry_nesting_error(row, MetaEntryKind_Expand);
   1826 		}break;
   1827 		}
   1828 	}
   1829 	return scope.consumed;
   1830 }
   1831 
   1832 function iz
   1833 meta_pack_emit(MetaContext *ctx, Arena scratch, MetaEntry *e, iz entry_count)
   1834 {
   1835 	assert(e->kind == MetaEntryKind_Emit);
   1836 
   1837 	MetaEmitOperationList *ops = da_push(ctx->arena, &ctx->emit_sets);
   1838 	MetaEntryScope scope = meta_entry_extract_scope(e, entry_count);
   1839 	for (MetaEntry *row = scope.start; row != scope.one_past_last; row++) {
   1840 		switch (row->kind) {
   1841 		case MetaEntryKind_String:{
   1842 			MetaEmitOperation *op = da_push(ctx->arena, ops);
   1843 			op->kind   = MetaEmitOperationKind_String;
   1844 			op->string = row->name;
   1845 		}break;
   1846 		case MetaEntryKind_Expand:{
   1847 			row += meta_expand(ctx, scratch, row, entry_count - (row - e), ops);
   1848 		}break;
   1849 		default:{ meta_entry_nesting_error(row, MetaEntryKind_Emit); }break;
   1850 		}
   1851 	}
   1852 	return scope.consumed;
   1853 }
   1854 
   1855 function iz
   1856 meta_pack_table(MetaContext *ctx, MetaEntry *e, iz entry_count)
   1857 {
   1858 	assert(e->kind == MetaEntryKind_Table);
   1859 
   1860 	MetaTable *t = da_push(ctx->arena, &ctx->tables);
   1861 	iz table_name_id = meta_lookup_string_slow(&ctx->table_names, e->name);
   1862 	if (table_name_id >= 0) meta_entry_error(e, "table redifined\n");
   1863 
   1864 	s8 *t_name = da_push(ctx->arena, &ctx->table_names);
   1865 	t->table_name_id = (u32)da_index(t_name, &ctx->table_names);
   1866 	*t_name = e->name;
   1867 
   1868 	meta_entry_argument_expected(e, s8("[field ...]"));
   1869 	MetaEntryArgument fields = meta_entry_argument_expect(e, 0, MetaEntryArgumentKind_Array);
   1870 	t->fields      = fields.strings;
   1871 	t->field_count = (u32)fields.count;
   1872 
   1873 	MetaEntryScope scope = meta_entry_extract_scope(e, entry_count);
   1874 	if (scope.consumed > 1) {
   1875 		for (MetaEntry *row = scope.start; row != scope.one_past_last; row++) {
   1876 			if (row->kind != MetaEntryKind_Array)
   1877 				meta_entry_nesting_error(row, MetaEntryKind_Table);
   1878 
   1879 			MetaEntryArgument entries = meta_entry_argument_expect(row, 0, MetaEntryArgumentKind_Array);
   1880 			if (entries.count != t->field_count) {
   1881 				meta_compiler_error_message(row->location, "incorrect field count for @%s entry got: %lu expected: %u\n",
   1882 				                            meta_entry_kind_strings[MetaEntryKind_Table],
   1883 				                            entries.count, t->field_count);
   1884 				fprintf(stderr, "  fields: [");
   1885 				for (uz i = 0; i < t->field_count; i++) {
   1886 					if (i != 0) fprintf(stderr, ", ");
   1887 					fprintf(stderr, "%.*s", (i32)t->fields[i].len, t->fields[i].data);
   1888 				}
   1889 				fprintf(stderr, "]\n");
   1890 				meta_error();
   1891 			}
   1892 			t->entry_count++;
   1893 		}
   1894 
   1895 		t->entries = push_array(ctx->arena, s8 *, t->field_count);
   1896 		for (u32 field = 0; field < t->field_count; field++)
   1897 			t->entries[field] = push_array(ctx->arena, s8, t->entry_count);
   1898 
   1899 		u32 row_index = 0;
   1900 		for (MetaEntry *row = scope.start; row != scope.one_past_last; row++, row_index++) {
   1901 			s8 *fs = row->arguments->strings;
   1902 			for (u32 field = 0; field < t->field_count; field++)
   1903 				t->entries[field][row_index] = fs[field];
   1904 		}
   1905 	}
   1906 
   1907 	return scope.consumed;
   1908 }
   1909 
   1910 function void
   1911 metagen_push_table(MetaprogramContext *m, Arena scratch, s8 row_start, s8 row_end,
   1912                    s8 **column_strings, uz rows, uz columns)
   1913 {
   1914 	u32 *column_widths = 0;
   1915 	if (columns > 1) {
   1916 		column_widths = push_array(&scratch, u32, (iz)columns - 1);
   1917 		for (uz column = 0; column < columns - 1; column++) {
   1918 			s8 *strings = column_strings[column];
   1919 			for (uz row = 0; row < rows; row++)
   1920 				column_widths[column] = MAX(column_widths[column], (u32)strings[row].len);
   1921 		}
   1922 	}
   1923 
   1924 	for (uz row = 0; row < rows; row++) {
   1925 		meta_begin_line(m, row_start);
   1926 		for (uz column = 0; column < columns; column++) {
   1927 			s8 text = column_strings[column][row];
   1928 			meta_push(m, text);
   1929 			i32 pad = columns > 1 ? 1 : 0;
   1930 			if (column_widths && column < columns - 1)
   1931 				pad += (i32)column_widths[column] - (i32)text.len;
   1932 			if (column < columns - 1) meta_pad(m, ' ', pad);
   1933 		}
   1934 		meta_end_line(m, row_end);
   1935 	}
   1936 }
   1937 
   1938 function void
   1939 metagen_push_counted_enum_body(MetaprogramContext *m, s8 kind, s8 prefix, s8 mid, s8 suffix, s8 *ids, iz ids_count)
   1940 {
   1941 	iz max_id_length = 0;
   1942 	for (iz id = 0; id < ids_count; id++)
   1943 		max_id_length = MAX(max_id_length, ids[id].len);
   1944 
   1945 	for (iz id = 0; id < ids_count; id++) {
   1946 		meta_begin_line(m, prefix, kind, ids[id]);
   1947 		meta_pad(m, ' ', 1 + (i32)(max_id_length - ids[id].len));
   1948 		meta_push(m, mid);
   1949 		meta_push_u64(m, (u64)id);
   1950 		meta_end_line(m, suffix);
   1951 	}
   1952 }
   1953 
   1954 function void
   1955 metagen_push_c_enum(MetaprogramContext *m, Arena scratch, s8 kind, s8 *ids, iz ids_count)
   1956 {
   1957 	s8 kind_full = push_s8_from_parts(&scratch, s8(""), kind, s8("_"));
   1958 	meta_begin_scope(m, s8("typedef enum {"));
   1959 	metagen_push_counted_enum_body(m, kind_full, s8(""), s8("= "), s8(","), ids, ids_count);
   1960 	meta_push_line(m, kind_full, s8("Count,"));
   1961 	meta_end_scope(m, s8("} "), kind, s8(";\n"));
   1962 }
   1963 
   1964 function void
   1965 metagen_push_c_flag_enum(MetaprogramContext *m, Arena scratch, s8 kind, s8 *ids, iz ids_count)
   1966 {
   1967 	s8 kind_full = push_s8_from_parts(&scratch, s8(""), kind, s8("_"));
   1968 	meta_begin_scope(m, s8("typedef enum {"));
   1969 	metagen_push_counted_enum_body(m, kind_full, s8(""), s8("= (1 << "), s8("),"), ids, ids_count);
   1970 	meta_end_scope(m, s8("} "), kind, s8(";\n"));
   1971 }
   1972 
   1973 function void
   1974 meta_push_shader_reload_info(MetaprogramContext *m, MetaContext *ctx)
   1975 {
   1976 	///////////////////////////////
   1977 	// NOTE(rnp): reloadable infos
   1978 	meta_begin_scope(m, s8("read_only global BeamformerShaderKind beamformer_reloadable_shader_kinds[] = {"));
   1979 	for (iz shader = 0; shader < ctx->base_shaders.count; shader++) {
   1980 		MetaShader *s = ctx->base_shaders.data[shader].shader;
   1981 		meta_push_line(m, s8("BeamformerShaderKind_"), ctx->shader_names.data[s->name_id], s8(","));
   1982 	}
   1983 	meta_end_scope(m, s8("};\n"));
   1984 
   1985 	meta_begin_scope(m, s8("read_only global s8 beamformer_reloadable_shader_files[] = {"));
   1986 	for (iz shader = 0; shader < ctx->base_shaders.count; shader++)
   1987 		meta_push_line(m, s8("s8_comp(\""), ctx->base_shaders.data[shader].file, s8("\"),"));
   1988 	meta_end_scope(m, s8("};\n"));
   1989 
   1990 	{
   1991 		meta_begin_scope(m, s8("read_only global i32 beamformer_shader_reloadable_index_by_shader[] = {"));
   1992 		for (iz shader = 0; shader < ctx->shaders.count; shader++) {
   1993 			meta_indent(m);
   1994 			meta_push_i64(m, ctx->shaders.data[shader].base_shader_id);
   1995 			meta_end_line(m, s8(","));
   1996 		}
   1997 		meta_end_scope(m, s8("};\n"));
   1998 	}
   1999 
   2000 	{
   2001 		u32 info_index = 0;
   2002 		for (iz group = 0; group < ctx->shader_groups.count; group++) {
   2003 			MetaShaderGroup *sg = ctx->shader_groups.data + group;
   2004 			meta_begin_line(m, s8("read_only global i32 beamformer_reloadable_"));
   2005 			for (iz i = 0; i < sg->name.len; i++)
   2006 				stream_append_byte(&m->stream, TOLOWER(sg->name.data[i]));
   2007 			meta_begin_scope(m, s8("_shader_info_indices[] = {"));
   2008 
   2009 			for (iz shader = 0; shader < sg->shaders.count; shader++) {
   2010 				MetaShader *s = ctx->shaders.data + sg->shaders.data[shader];
   2011 				/* TODO(rnp): store base shader list in a better format */
   2012 				for (iz base_shader = 0; base_shader < ctx->base_shaders.count; base_shader++) {
   2013 					MetaBaseShader *bs = ctx->base_shaders.data + base_shader;
   2014 					if (bs->shader == s) {
   2015 						meta_indent(m);
   2016 						meta_push_u64(m, info_index++);
   2017 						meta_end_line(m, s8(","));
   2018 						break;
   2019 					}
   2020 				}
   2021 			}
   2022 			meta_end_scope(m, s8("};\n"));
   2023 		}
   2024 	}
   2025 
   2026 	////////////////////////////////////
   2027 	// NOTE(rnp): shader header strings
   2028 	meta_begin_scope(m, s8("read_only global s8 beamformer_shader_global_header_strings[] = {"));
   2029 	for (iz kind = 0; kind < ctx->enumeration_kinds.count; kind++) {
   2030 		s8_list *sub_list  = ctx->enumeration_members.data + kind;
   2031 		s8 kind_name = push_s8_from_parts(&m->scratch, s8(""), ctx->enumeration_kinds.data[kind], s8("_"));
   2032 		meta_push_line(m, s8("s8_comp(\"\""));
   2033 		metagen_push_counted_enum_body(m, kind_name, s8("\"#define "), s8(""), s8("\\n\""),
   2034 		                               sub_list->data, sub_list->count);
   2035 		meta_push_line(m, s8("\"\\n\"),"));
   2036 		m->scratch = ctx->scratch;
   2037 	}
   2038 	meta_end_scope(m, s8("};\n"));
   2039 
   2040 	meta_begin_scope(m, s8("read_only global s8 *beamformer_shader_flag_strings[] = {"));
   2041 	for (iz shader = 0; shader < ctx->base_shaders.count; shader++) {
   2042 		MetaShader *s         = ctx->base_shaders.data[shader].shader;
   2043 		s8_list    *flag_list = ctx->flags_for_shader.data + s->flag_list_id;
   2044 
   2045 		if (flag_list->count) {
   2046 			meta_begin_scope(m, s8("(s8 []){"));
   2047 			for (iz flag = 0; flag < flag_list->count; flag++)
   2048 				meta_push_line(m, s8("s8_comp(\""), flag_list->data[flag], s8("\"),"));
   2049 			meta_end_scope(m, s8("},"));
   2050 		} else {
   2051 			meta_push_line(m, s8("0,"));
   2052 		}
   2053 	}
   2054 	meta_end_scope(m, s8("};\n"));
   2055 
   2056 	meta_begin_scope(m, s8("read_only global u8 beamformer_shader_flag_strings_count[] = {"));
   2057 	for (iz shader = 0; shader < ctx->base_shaders.count; shader++) {
   2058 		MetaShader *s         = ctx->base_shaders.data[shader].shader;
   2059 		s8_list    *flag_list = ctx->flags_for_shader.data + s->flag_list_id;
   2060 
   2061 		meta_indent(m);
   2062 		meta_push_u64(m, (u64)flag_list->count);
   2063 		meta_end_line(m, s8(","));
   2064 	}
   2065 	meta_end_scope(m, s8("};\n"));
   2066 }
   2067 
   2068 function b32
   2069 metagen_emit_c_code(MetaContext *ctx, Arena arena)
   2070 {
   2071 	b32 result = 1;
   2072 
   2073 	os_make_directory("generated");
   2074 	char *out = "generated/beamformer.meta.c";
   2075 	if (!needs_rebuild(out, "beamformer.meta"))
   2076 		return result;
   2077 
   2078 	build_log_generate("Core C Code");
   2079 
   2080 	MetaprogramContext meta_program = {.stream = arena_stream(arena), .scratch = ctx->scratch};
   2081 	MetaprogramContext *m = &meta_program;
   2082 
   2083 	meta_push_line(m, s8("/* See LICENSE for license details. */\n"));
   2084 	meta_push_line(m, s8("// GENERATED CODE\n"));
   2085 
   2086 	/////////////////////////
   2087 	// NOTE(rnp): enumarents
   2088 	for (iz kind = 0; kind < ctx->enumeration_kinds.count; kind++) {
   2089 		s8 enum_name = push_s8_from_parts(&m->scratch, s8(""), s8("Beamformer"), ctx->enumeration_kinds.data[kind]);
   2090 		metagen_push_c_enum(m, m->scratch, enum_name, ctx->enumeration_members.data[kind].data,
   2091 		                    ctx->enumeration_members.data[kind].count);
   2092 		m->scratch = ctx->scratch;
   2093 	}
   2094 
   2095 	for (iz shader = 0; shader < ctx->base_shaders.count; shader++) {
   2096 		MetaShader *s = ctx->base_shaders.data[shader].shader;
   2097 		s8_list flag_list = ctx->flags_for_shader.data[s->flag_list_id];
   2098 		if (flag_list.count) {
   2099 			s8 enum_name = push_s8_from_parts(&m->scratch, s8(""), s8("BeamformerShader"),
   2100 			                                  ctx->shader_names.data[s->name_id], s8("Flags"));
   2101 			metagen_push_c_flag_enum(m, m->scratch, enum_name, flag_list.data, flag_list.count);
   2102 			m->scratch = ctx->scratch;
   2103 		}
   2104 	}
   2105 
   2106 	{
   2107 		s8 kind      = s8("BeamformerShaderKind");
   2108 		s8 kind_full = s8("BeamformerShaderKind_");
   2109 		meta_begin_scope(m, s8("typedef enum {"));
   2110 		metagen_push_counted_enum_body(m, kind_full, s8(""), s8("= "), s8(","),
   2111 		                               ctx->shader_names.data, ctx->shader_names.count);
   2112 		meta_push_line(m, kind_full, s8("Count,\n"));
   2113 
   2114 		s8 *columns[2];
   2115 		columns[0] = push_array(&m->scratch, s8, ctx->shader_groups.count * 3);
   2116 		columns[1] = push_array(&m->scratch, s8, ctx->shader_groups.count * 3);
   2117 
   2118 		for (iz group = 0; group < ctx->shader_groups.count; group++) {
   2119 			MetaShaderGroup *sg = ctx->shader_groups.data + group;
   2120 
   2121 			s8 first_name = ctx->shader_names.data[ctx->shaders.data[sg->shaders.data[0]].name_id];
   2122 			s8 last_name  = ctx->shader_names.data[ctx->shaders.data[sg->shaders.data[sg->shaders.count - 1]].name_id];
   2123 
   2124 			columns[0][3 * group + 0] = push_s8_from_parts(&m->scratch, s8(""), kind, s8("_"), sg->name, s8("First"));
   2125 			columns[1][3 * group + 0] = push_s8_from_parts(&m->scratch, s8(""), s8("= "), kind, s8("_"), first_name);
   2126 
   2127 			columns[0][3 * group + 1] = push_s8_from_parts(&m->scratch, s8(""), kind, s8("_"), sg->name, s8("Last"));
   2128 			columns[1][3 * group + 1] = push_s8_from_parts(&m->scratch, s8(""),s8("= "), kind, s8("_"), last_name);
   2129 
   2130 			columns[0][3 * group + 2] = push_s8_from_parts(&m->scratch, s8(""), kind, s8("_"), sg->name, s8("Count"));
   2131 			Stream sb = arena_stream(m->scratch);
   2132 			stream_append_s8(&sb, s8("= "));
   2133 			stream_append_u64(&sb, (u64)sg->shaders.count);
   2134 			columns[1][3 * group + 2] = arena_stream_commit(&m->scratch, &sb);
   2135 		}
   2136 		metagen_push_table(m, m->scratch, s8(""), s8(","), columns, (uz)ctx->shader_groups.count * 3, 2);
   2137 
   2138 		meta_end_scope(m, s8("} "), kind, s8(";\n"));
   2139 		m->scratch = ctx->scratch;
   2140 	}
   2141 
   2142 	//////////////////////
   2143 	// NOTE(rnp): structs
   2144 	for (u32 bake = 0; bake < ctx->shader_bake_parameters.count; bake++) {
   2145 		Arena tmp = m->scratch;
   2146 		MetaShaderBakeParameters *b = ctx->shader_bake_parameters.data + bake;
   2147 		MetaShader *s = ctx->shaders.data + b->shader_id;
   2148 		s8 name = push_s8_from_parts(&m->scratch, s8(""), s8("BeamformerShader"),
   2149 		                             ctx->shader_names.data[s->name_id], s8("BakeParameters"));
   2150 		meta_begin_scope(m, s8("typedef struct {"));
   2151 			for (u32 entry = 0; entry < b->entry_count; entry++) {
   2152 				s8 kind = b->floating_point[entry] ? s8("f32 ") : s8("u32 ");
   2153 				meta_push_line(m, kind, b->names_lower[entry], s8(";"));
   2154 			}
   2155 		meta_end_scope(m, s8("} "), name, s8(";\n"));
   2156 		m->scratch = tmp;
   2157 	}
   2158 
   2159 	// shader bake parameter struct
   2160 	meta_begin_scope(m, s8("typedef struct {"));
   2161 	{
   2162 		meta_begin_scope(m, s8("union {"));
   2163 		{
   2164 			Arena tmp = m->scratch;
   2165 			s8 *columns[2];
   2166 			columns[0] = push_array(&m->scratch, s8, ctx->shader_bake_parameters.count);
   2167 			columns[1] = push_array(&m->scratch, s8, ctx->shader_bake_parameters.count);
   2168 			for (u32 bake = 0; bake < ctx->shader_bake_parameters.count; bake++) {
   2169 				MetaShaderBakeParameters *b = ctx->shader_bake_parameters.data + bake;
   2170 				MetaShader *s = ctx->shaders.data + b->shader_id;
   2171 				columns[0][bake] = push_s8_from_parts(&m->scratch, s8(""), s8("BeamformerShader"),
   2172 				                                      ctx->shader_names.data[s->name_id], s8("BakeParameters"));
   2173 				columns[1][bake] = ctx->shader_names.data[s->name_id];
   2174 			}
   2175 			metagen_push_table(m, m->scratch, s8(""), s8(";"), columns,
   2176 			                   (uz)ctx->shader_bake_parameters.count, 2);
   2177 			m->scratch = tmp;
   2178 		} meta_end_scope(m, s8("};"));
   2179 		s8 names[] = {s8("data_kind"), s8("flags")};
   2180 		s8 types[] = {s8("u32"),       s8("u32")};
   2181 		metagen_push_table(m, m->scratch, s8(""), s8(";"), (s8 *[]){types, names}, countof(names), 2);
   2182 	} meta_end_scope(m, s8("} BeamformerShaderBakeParameters;\n"));
   2183 
   2184 	/////////////////////////////////
   2185 	// NOTE(rnp): shader info tables
   2186 	meta_begin_scope(m, s8("read_only global s8 beamformer_shader_names[] = {"));
   2187 	metagen_push_table(m, m->scratch, s8("s8_comp(\""), s8("\"),"), &ctx->shader_names.data,
   2188 	                   (uz)ctx->shader_names.count, 1);
   2189 	meta_end_scope(m, s8("};\n"));
   2190 
   2191 	meta_push_shader_reload_info(m, ctx);
   2192 
   2193 	meta_begin_scope(m, s8("read_only global i32 *beamformer_shader_header_vectors[] = {"));
   2194 	for (iz shader = 0; shader < ctx->base_shaders.count; shader++) {
   2195 		MetaShader *s = ctx->base_shaders.data[shader].shader;
   2196 		if (s->global_flag_ids.count || s->global_enumeration_ids.count) {
   2197 			meta_begin_line(m, s8("(i32 []){"));
   2198 			for (iz id = 0; id < s->global_flag_ids.count; id++) {
   2199 				if (id != 0) meta_push(m, s8(", "));
   2200 				meta_push_u64(m, s->global_flag_ids.data[id]);
   2201 			}
   2202 			for (iz id = 0; id < s->global_enumeration_ids.count; id++) {
   2203 				if (id != 0 || s->global_flag_ids.count) meta_push(m, s8(", "));
   2204 				meta_push_u64(m, s->global_enumeration_ids.data[id]);
   2205 			}
   2206 			meta_end_line(m, s8("},"));
   2207 		} else {
   2208 			meta_push_line(m, s8("0,"));
   2209 		}
   2210 	}
   2211 	meta_end_scope(m, s8("};\n"));
   2212 
   2213 	meta_begin_scope(m, s8("read_only global i32 beamformer_shader_header_vector_lengths[] = {"));
   2214 	for (iz shader = 0; shader < ctx->base_shaders.count; shader++) {
   2215 		MetaShader *s = ctx->base_shaders.data[shader].shader;
   2216 		meta_indent(m);
   2217 		meta_push_u64(m, (u64)s->global_enumeration_ids.count);
   2218 		meta_end_line(m, s8(","));
   2219 	}
   2220 	meta_end_scope(m, s8("};\n"));
   2221 
   2222 	meta_begin_scope(m, s8("read_only global s8 *beamformer_shader_bake_parameter_names[] = {"));
   2223 	for (iz shader = 0; shader < ctx->base_shaders.count; shader++) {
   2224 		MetaShader *s = ctx->base_shaders.data[shader].shader;
   2225 		if (s->bake_parameters) {
   2226 			meta_begin_scope(m, s8("(s8 []){"));
   2227 			for (u32 index = 0; index < s->bake_parameters->entry_count; index++)
   2228 				meta_push_line(m, s8("s8_comp(\""), s->bake_parameters->names_upper[index], s8("\"),"));
   2229 			meta_end_scope(m, s8("},"));
   2230 		} else {
   2231 			meta_push_line(m, s8("0,"));
   2232 		}
   2233 	}
   2234 	meta_end_scope(m, s8("};\n"));
   2235 
   2236 	meta_begin_scope(m, s8("read_only global u8 *beamformer_shader_bake_parameter_is_float[] = {"));
   2237 	for (iz shader = 0; shader < ctx->base_shaders.count; shader++) {
   2238 		MetaShader *s = ctx->base_shaders.data[shader].shader;
   2239 		if (s->bake_parameters) {
   2240 			meta_begin_line(m, s8("(u8 []){"));
   2241 			for (u32 index = 0; index < s->bake_parameters->entry_count; index++) {
   2242 				if (index != 0) meta_push(m, s8(", "));
   2243 				meta_push(m, s->bake_parameters->floating_point[index] ? s8("1") : s8("0"));
   2244 			}
   2245 			meta_end_line(m, s8("},"));
   2246 		} else {
   2247 			meta_push_line(m, s8("0,"));
   2248 		}
   2249 	}
   2250 	meta_end_scope(m, s8("};\n"));
   2251 
   2252 	meta_begin_scope(m, s8("read_only global i32 beamformer_shader_bake_parameter_counts[] = {"));
   2253 	for (iz shader = 0; shader < ctx->base_shaders.count; shader++) {
   2254 		MetaShader *s = ctx->base_shaders.data[shader].shader;
   2255 		if (s->bake_parameters) {
   2256 			meta_indent(m);
   2257 			meta_push_u64(m, s->bake_parameters->entry_count);
   2258 			meta_end_line(m, s8(","));
   2259 		} else {
   2260 			meta_push_line(m, s8("0,"));
   2261 		}
   2262 	}
   2263 	meta_end_scope(m, s8("};\n"));
   2264 
   2265 	///////////////////////////////
   2266 	// NOTE(rnp): @Emit directives
   2267 	for (iz set = 0; set < ctx->emit_sets.count; set++) {
   2268 		MetaEmitOperationList *ops = ctx->emit_sets.data + set;
   2269 		for (iz opcode = 0; opcode < ops->count; opcode++) {
   2270 			MetaEmitOperation *op = ops->data + opcode;
   2271 			switch (op->kind) {
   2272 			case MetaEmitOperationKind_String:{ meta_push_line(m, op->string); }break;
   2273 			case MetaEmitOperationKind_Expand:{
   2274 				MetaEmitOperationExpansion *eop = &op->expansion_operation;
   2275 				MetaTable *t = ctx->tables.data + eop->table_id;
   2276 				for (u32 entry = 0; entry < t->entry_count; entry++) {
   2277 					meta_indent(m);
   2278 					for (u32 part = 0; part < eop->part_count; part++) {
   2279 						MetaExpansionPart *p = eop->parts + part;
   2280 						u32 index = p->kind == MetaExpansionPartKind_Reference ? entry : 0;
   2281 						meta_push(m, p->strings[index]);
   2282 					}
   2283 					meta_end_line(m);
   2284 				}
   2285 			}break;
   2286 			InvalidDefaultCase;
   2287 			}
   2288 		}
   2289 		meta_end_line(m);
   2290 	}
   2291 
   2292 	//fprintf(stderr, "%.*s\n", (i32)m.stream.widx, m.stream.data);
   2293 
   2294 	result = meta_write_and_reset(m, out);
   2295 
   2296 	return result;
   2297 }
   2298 
   2299 function b32
   2300 metagen_emit_matlab_code(MetaContext *ctx, Arena arena)
   2301 {
   2302 	b32 result = 1;
   2303 	if (!needs_rebuild(OUTPUT("matlab/OGLBeamformerFilterKind.m"), "beamformer_parameters.h"))
   2304 		return result;
   2305 
   2306 	build_log_generate("MATLAB Bindings");
   2307 	/* TODO(rnp): recreate/clear directory incase these file names change */
   2308 	os_make_directory(OUTPUT("matlab"));
   2309 
   2310 	MetaprogramContext meta_program = {.stream = arena_stream(arena), .scratch = ctx->scratch};
   2311 	MetaprogramContext *m = &meta_program;
   2312 
   2313 	#define X(name, flag, ...) meta_push_line(m, s8(#name " (" str(flag) ")"));
   2314 	meta_begin_matlab_class(m, "OGLBeamformerLiveFeedbackFlags", "int32");
   2315 	meta_begin_scope(m, s8("enumeration"));
   2316 	BEAMFORMER_LIVE_IMAGING_DIRTY_FLAG_LIST
   2317 	result &= meta_end_and_write_matlab(m, OUTPUT("matlab/OGLBeamformerLiveFeedbackFlags.m"));
   2318 	#undef X
   2319 
   2320 	#define X(kind, ...) meta_push_matlab_enum_with_value(m, s8(#kind), BeamformerFilterKind_## kind);
   2321 	meta_begin_matlab_class(m, "OGLBeamformerFilterKind", "int32");
   2322 	meta_begin_scope(m, s8("enumeration"));
   2323 	BEAMFORMER_FILTER_KIND_LIST(,)
   2324 	result &= meta_end_and_write_matlab(m, OUTPUT("matlab/OGLBeamformerFilterKind.m"));
   2325 	#undef X
   2326 
   2327 	os_make_directory(OUTPUT("matlab/+OGLBeamformerFilter"));
   2328 	#define X(kind, ...) {OUTPUT("matlab/+OGLBeamformerFilter/" #kind ".m"), s8_comp(#kind),  s8_comp(#__VA_ARGS__)},
   2329 	read_only local_persist struct {char *out; s8 class, args;} filter_table[] = {
   2330 		BEAMFORMER_FILTER_KIND_LIST(,)
   2331 	};
   2332 	#undef X
   2333 
   2334 	s8_list members = {0};
   2335 	for EachNonZeroEnumValue(BeamformerFilterKind, filter) {
   2336 		typeof(*filter_table) *f = filter_table + filter;
   2337 		members.count = 0;
   2338 		s8_list_from_s8(&members, &m->scratch, f->args);
   2339 		meta_begin_scope(m, s8("classdef "), f->class, s8(" < OGLBeamformerFilter.BaseFilter"));
   2340 
   2341 		meta_begin_scope(m, s8("properties"));
   2342 		for (iz it = 0; it < members.count; it++)
   2343 			meta_push_matlab_property(m, members.data[it], 1, s8("single"));
   2344 		meta_end_scope(m, s8("end"));
   2345 
   2346 		meta_begin_scope(m, s8("methods"));
   2347 		meta_begin_line(m, s8("function obj = "), f->class, s8("("));
   2348 		for (iz it = 0; it < members.count; it++)
   2349 			meta_push(m, it > 0 ? s8(", ") : s8(""), members.data[it]);
   2350 		meta_end_line(m, s8(")"));
   2351 
   2352 		m->indentation_level++;
   2353 		for (iz it = 0; it < members.count; it++)
   2354 			meta_push_line(m, s8("obj."), members.data[it], s8(" = "), members.data[it], s8(";"));
   2355 		result &= meta_end_and_write_matlab(m, f->out);
   2356 	}
   2357 	m->scratch = ctx->scratch;
   2358 
   2359 	meta_begin_matlab_class(m, "BaseFilter");
   2360 	meta_begin_scope(m, s8("methods"));
   2361 	meta_begin_scope(m, s8("function out = Flatten(obj)"));
   2362 	meta_push_line(m, s8("fields = struct2cell(struct(obj));"));
   2363 	meta_push_line(m, s8("out    = zeros(1, numel(fields));"));
   2364 	meta_begin_scope(m, s8("for i = 1:numel(fields)"));
   2365 	meta_push_line(m, s8("out(i) = fields{i};"));
   2366 	result &= meta_end_and_write_matlab(m, OUTPUT("matlab/+OGLBeamformerFilter/BaseFilter.m"));
   2367 
   2368 	#define X(name, __t, __s, kind, elements, ...) meta_push_matlab_property(m, s8(#name), (u64)elements, s8(#kind));
   2369 	meta_begin_matlab_class(m, "OGLBeamformerParameters");
   2370 	meta_begin_scope(m, s8("properties"));
   2371 	BEAMFORMER_PARAMS_HEAD
   2372 	BEAMFORMER_UI_PARAMS
   2373 	result &= meta_end_and_write_matlab(m, OUTPUT("matlab/OGLBeamformerParameters.m"));
   2374 
   2375 	meta_begin_matlab_class(m, "OGLBeamformerParametersHead");
   2376 	meta_begin_scope(m, s8("properties"));
   2377 	BEAMFORMER_PARAMS_HEAD
   2378 	result &= meta_end_and_write_matlab(m, OUTPUT("matlab/OGLBeamformerParametersHead.m"));
   2379 
   2380 	meta_begin_matlab_class(m, "OGLBeamformerParametersUI");
   2381 	meta_begin_scope(m, s8("properties"));
   2382 	BEAMFORMER_UI_PARAMS
   2383 	result &= meta_end_and_write_matlab(m, OUTPUT("matlab/OGLBeamformerParametersUI.m"));
   2384 
   2385 	meta_begin_matlab_class(m, "OGLBeamformerSimpleParameters");
   2386 	meta_begin_scope(m, s8("properties"));
   2387 	BEAMFORMER_PARAMS_HEAD
   2388 	BEAMFORMER_UI_PARAMS
   2389 	BEAMFORMER_SIMPLE_PARAMS
   2390 	result &= meta_end_and_write_matlab(m, OUTPUT("matlab/OGLBeamformerSimpleParameters.m"));
   2391 	#undef X
   2392 
   2393 	#define X(name, __t, __s, elements, ...) meta_push_matlab_property(m, s8(#name), elements, s8(""));
   2394 	meta_begin_matlab_class(m, "OGLBeamformerLiveImagingParameters");
   2395 	meta_begin_scope(m, s8("properties"));
   2396 	BEAMFORMER_LIVE_IMAGING_PARAMETERS_LIST
   2397 	result &= meta_end_and_write_matlab(m, OUTPUT("matlab/OGLBeamformerLiveImagingParameters.m"));
   2398 	#undef X
   2399 
   2400 	meta_begin_matlab_class(m, "OGLBeamformerShaderStage", "int32");
   2401 	meta_begin_scope(m, s8("enumeration"));
   2402 	{
   2403 		iz index = -1;
   2404 		for (iz group = 0; group < ctx->shader_groups.count; group++) {
   2405 			if (s8_equal(ctx->shader_groups.data[group].name, s8("Compute"))) {
   2406 				index = group;
   2407 				break;
   2408 			}
   2409 		}
   2410 		if (index != -1) {
   2411 			MetaShaderGroup *sg = ctx->shader_groups.data + index;
   2412 			/* TODO(rnp): this assumes that the shaders are sequential */
   2413 			s8 *names = ctx->shader_names.data + ctx->shaders.data[0].name_id;
   2414 			metagen_push_counted_enum_body(m, s8(""), s8(""), s8("("), s8(")"), names, sg->shaders.count);
   2415 		} else {
   2416 			build_log_failure("failed to find Compute shader group in meta info\n");
   2417 		}
   2418 		result &= index != -1;
   2419 	}
   2420 	result &= meta_end_and_write_matlab(m, OUTPUT("matlab/OGLBeamformerShaderStage.m"));
   2421 
   2422 	for (iz kind = 0; kind < ctx->enumeration_kinds.count; kind++) {
   2423 		Arena scratch = ctx->scratch;
   2424 		s8 name   = ctx->enumeration_kinds.data[kind];
   2425 		s8 output = push_s8_from_parts(&scratch, s8(""), s8(OUTPUT("matlab/OGLBeamformer")), name, s8(".m"));
   2426 		s8_list *kinds = ctx->enumeration_members.data + kind;
   2427 		meta_begin_scope(m, s8("classdef OGLBeamformer"), name, s8(" < int32"));
   2428 		meta_begin_scope(m, s8("enumeration"));
   2429 		s8 prefix = s8("");
   2430 		if (kinds->count > 0 && ISDIGIT(kinds->data[0].data[0])) prefix = s8("m");
   2431 		metagen_push_counted_enum_body(m, s8(""), prefix, s8("("), s8(")"), kinds->data, kinds->count);
   2432 		result &= meta_end_and_write_matlab(m, (c8 *)output.data);
   2433 	}
   2434 
   2435 	return result;
   2436 }
   2437 
   2438 function b32
   2439 metagen_emit_helper_library_header(MetaContext *ctx, Arena arena)
   2440 {
   2441 	b32 result = 1;
   2442 	char *out = OUTPUT("ogl_beamformer_lib.h");
   2443 	if (!needs_rebuild(out, "helpers/ogl_beamformer_lib_base.h", "beamformer.meta"))
   2444 		return result;
   2445 
   2446 	build_log_generate("Helper Library Header");
   2447 
   2448 	s8 parameters_header = os_read_whole_file(&arena, "beamformer_parameters.h");
   2449 	s8 base_header       = os_read_whole_file(&arena, "helpers/ogl_beamformer_lib_base.h");
   2450 
   2451 	MetaprogramContext meta_program = {.stream = arena_stream(arena), .scratch = ctx->scratch};
   2452 	MetaprogramContext *m = &meta_program;
   2453 
   2454 	meta_push_line(m, s8("/* See LICENSE for license details. */\n"));
   2455 	meta_push_line(m, s8("// GENERATED CODE\n"));
   2456 
   2457 	{
   2458 		iz index = meta_lookup_string_slow(&ctx->enumeration_kinds, s8("DataKind"));
   2459 		if (index != -1) {
   2460 			s8 enum_name = push_s8_from_parts(&m->scratch, s8(""), s8("Beamformer"), ctx->enumeration_kinds.data[index]);
   2461 			metagen_push_c_enum(m, m->scratch, enum_name, ctx->enumeration_members.data[index].data,
   2462 			                    ctx->enumeration_members.data[index].count);
   2463 			m->scratch = ctx->scratch;
   2464 		} else {
   2465 			build_log_failure("failed to find DataKind in meta info\n");
   2466 		}
   2467 	}
   2468 
   2469 	{
   2470 		iz index = -1;
   2471 		for (iz group = 0; group < ctx->shader_groups.count; group++) {
   2472 			if (s8_equal(ctx->shader_groups.data[group].name, s8("Compute"))) {
   2473 				index = group;
   2474 				break;
   2475 			}
   2476 		}
   2477 		if (index != -1) {
   2478 			MetaShaderGroup *sg = ctx->shader_groups.data + index;
   2479 			meta_begin_line(m, s8("#define BeamformerShaderKind_ComputeCount ("));
   2480 			meta_push_u64(m, (u64)sg->shaders.count);
   2481 			meta_end_line(m, s8(")\n"));
   2482 		} else {
   2483 			build_log_failure("failed to find Compute shader group in meta info\n");
   2484 		}
   2485 	}
   2486 
   2487 	meta_push(m, parameters_header, base_header);
   2488 	result &= meta_write_and_reset(m, out);
   2489 
   2490 	return result;
   2491 }
   2492 
   2493 function MetaContext *
   2494 metagen_load_context(Arena *arena)
   2495 {
   2496 	if (setjmp(compiler_jmp_buf)) {
   2497 		/* NOTE(rnp): compiler error */
   2498 		return 0;
   2499 	}
   2500 
   2501 	MetaContext *ctx = push_struct(arena, MetaContext);
   2502 	ctx->scratch     = sub_arena(arena, MB(1), 16);
   2503 	ctx->arena       = arena;
   2504 
   2505 	MetaContext *result = ctx;
   2506 
   2507 	Arena scratch = ctx->scratch;
   2508 	MetaEntryStack entries = meta_entry_stack_from_file(ctx->arena, scratch, "beamformer.meta");
   2509 
   2510 	i32 stack_items[32];
   2511 	struct { i32 *data; iz capacity; iz count; } stack = {stack_items, countof(stack_items), 0};
   2512 
   2513 	MetaShaderGroup *current_shader_group = 0;
   2514 	for (iz i = 0; i < entries.count; i++) {
   2515 		MetaEntry *e = entries.data + i;
   2516 		//if (e->kind == MetaEntryKind_EndScope)   depth--;
   2517 		//meta_entry_print(e, depth, -1);
   2518 		//if (e->kind == MetaEntryKind_BeginScope) depth++;
   2519 		//continue;
   2520 
   2521 		switch (e->kind) {
   2522 		case MetaEntryKind_BeginScope:{ *da_push(&scratch, &stack) = (i32)(i - 1); }break;
   2523 		case MetaEntryKind_EndScope:{
   2524 			i32 index = stack.data[--stack.count];
   2525 			MetaEntry *ended = entries.data + index;
   2526 			switch (ended->kind) {
   2527 			case MetaEntryKind_ShaderGroup:{ current_shader_group = 0; }break;
   2528 			default:{}break;
   2529 			}
   2530 		}break;
   2531 		case MetaEntryKind_Emit:{
   2532 			i += meta_pack_emit(ctx, scratch, e, entries.count - i);
   2533 		}break;
   2534 		case MetaEntryKind_Enumeration:{
   2535 			meta_entry_argument_expected(e, s8("kind"), s8("[id ...]"));
   2536 			s8 kind = meta_entry_argument_expect(e, 0, MetaEntryArgumentKind_String).string;
   2537 			MetaEntryArgument ids = meta_entry_argument_expect(e, 1, MetaEntryArgumentKind_Array);
   2538 			for (u32 id = 0; id < ids.count; id++)
   2539 				meta_commit_enumeration(ctx, kind, ids.strings[id]);
   2540 		}break;
   2541 		case MetaEntryKind_Expand:{
   2542 			i += meta_expand(ctx, scratch, e, entries.count - i, 0);
   2543 		}break;
   2544 		case MetaEntryKind_ShaderGroup:{
   2545 			MetaShaderGroup *sg = da_push(ctx->arena, &ctx->shader_groups);
   2546 			sg->name = e->name;
   2547 			current_shader_group = sg;
   2548 		}break;
   2549 		case MetaEntryKind_Shader:{
   2550 			if (!current_shader_group) goto error;
   2551 			i += meta_pack_shader(ctx, current_shader_group, scratch, e, entries.count - i);
   2552 		}break;
   2553 		case MetaEntryKind_Table:{
   2554 			i += meta_pack_table(ctx, e, entries.count - i);
   2555 		}break;
   2556 
   2557 		error:
   2558 		default:
   2559 		{
   2560 			meta_entry_error(e, "invalid @%s() in global scope\n", meta_entry_kind_strings[e->kind]);
   2561 		}break;
   2562 		}
   2563 	}
   2564 
   2565 	result->arena = 0;
   2566 	return result;
   2567 }
   2568 
   2569 i32
   2570 main(i32 argc, char *argv[])
   2571 {
   2572 	u64 start_time = os_get_timer_counter();
   2573 	g_argv0 = argv[0];
   2574 
   2575 	b32 result  = 1;
   2576 	Arena arena = os_alloc_arena(MB(8));
   2577 	check_rebuild_self(arena, argc, argv);
   2578 
   2579 	os_make_directory(OUTDIR);
   2580 
   2581 	MetaContext *meta = metagen_load_context(&arena);
   2582 	if (!meta) return 1;
   2583 
   2584 	result &= metagen_emit_c_code(meta, arena);
   2585 	result &= metagen_emit_helper_library_header(meta, arena);
   2586 	result &= metagen_emit_matlab_code(meta, arena);
   2587 
   2588 	Options options = parse_options(argc, argv);
   2589 
   2590 	CommandList c = cmd_base(&arena, &options);
   2591 	if (!check_build_raylib(arena, c, options.debug)) return 1;
   2592 
   2593 	/////////////////////////////////////
   2594 	// extra flags (unusable for raylib)
   2595 	cmd_append(&arena, &c, EXTRA_FLAGS);
   2596 
   2597 	/////////////////
   2598 	// helpers/tests
   2599 	result &= build_helper_library(arena, c);
   2600 	if (options.tests) result &= build_tests(arena, c);
   2601 
   2602 	//////////////////
   2603 	// static portion
   2604 	iz c_count = c.count;
   2605 	cmd_append(&arena, &c, OS_MAIN, OUTPUT_EXE("ogl"));
   2606 	cmd_pdb(&arena, &c, "ogl");
   2607 	if (options.debug) {
   2608 		if (!is_w32)  cmd_append(&arena, &c, "-Wl,--export-dynamic", "-Wl,-rpath,.");
   2609 		if (!is_msvc) cmd_append(&arena, &c, "-L.");
   2610 		cmd_append(&arena, &c, LINK_LIB("raylib"));
   2611 	} else {
   2612 		cmd_append(&arena, &c, OUTPUT(OS_STATIC_LIB("raylib")));
   2613 	}
   2614 	if (!is_msvc) cmd_append(&arena, &c, "-lm");
   2615 	if (is_unix)  cmd_append(&arena, &c, "-lGL");
   2616 	if (is_w32) {
   2617 		cmd_append(&arena, &c, LINK_LIB("user32"), LINK_LIB("shell32"), LINK_LIB("gdi32"),
   2618 		           LINK_LIB("opengl32"), LINK_LIB("winmm"), LINK_LIB("Synchronization"));
   2619 		if (!is_msvc) cmd_append(&arena, &c, "-Wl,--out-implib," OUTPUT(OS_STATIC_LIB("main")));
   2620 	}
   2621 	cmd_append(&arena, &c, (void *)0);
   2622 
   2623 	result &= run_synchronous(arena, &c);
   2624 	c.count = c_count;
   2625 
   2626 	/////////////////////////
   2627 	// hot reloadable portion
   2628 	//
   2629 	// NOTE: this is built after main because on w32 we need to export
   2630 	// gl function pointers for the reloadable portion to import
   2631 	if (options.debug) {
   2632 		if (is_msvc) {
   2633 			build_static_library_from_objects(arena, OUTPUT_LIB(OS_STATIC_LIB("main")),
   2634 			                                  arg_list(char *, "/def", "/name:ogl.exe"),
   2635 			                                  arg_list(char *, OUTPUT(OBJECT("main_w32"))));
   2636 		}
   2637 		result &= build_beamformer_as_library(arena, c);
   2638 	}
   2639 
   2640 	if (options.time) {
   2641 		f64 seconds = (f64)(os_get_timer_counter() - start_time) / (f64)os_get_timer_frequency();
   2642 		build_log_info("took %0.03f [s]", seconds);
   2643 	}
   2644 
   2645 	return result != 1;
   2646 }