script/print-json-token-debug-format.c - external/github.com/google/wuffs - Git at Google

 // Copyright 2020 The Wuffs Authors.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    https://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 // ----------------

 // print-json-token-debug-format.c parses JSON from stdin and prints the
 // resulting token stream, eliding any non-essential (e.g. whitespace) tokens.
 //
 // The output format is only for debugging or regression testing, and certainly
 // not for long term storage. It isn't guaranteed to be stable between versions
 // of this program and of the Wuffs standard library.
 //
 // It prints 16 bytes (128 bits) per token, containing big-endian numbers:
 //
 // +---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
 // |               |       |       |   |      VALUE_EXTENSION      |
 // |      POS      |  LEN  |  CON  |EXT|VALUE_MAJOR|  VALUE_MINOR  |
 // |               |       |       |   |     0     |VBC|    VBD    |
 // +---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
 //
 //  - POS (4 bytes) is the position: the sum of all previous tokens' lengths,
 //                  including elided tokens.
 //  - LEN (2 bytes) is the length.
 //  - CON (2 bytes) is the continued bit
 //  - EXT (1 bytes) is 1 for extended and 0 for simple tokens.
 //
 // Extended tokens have a VALUE_EXTENSION (7 bytes).
 //
 // Simple tokens have a VALUE_MAJOR (3 bytes) and then either 4 bytes
 // VALUE_MINOR (when VALUE_MAJOR is non-zero) or (1 + 3) bytes
 // VALUE_BASE_CATEGORY and VALUE_BASE_DETAIL (when VALUE_MAJOR is zero).
 //
 // ----
 //
 // Together with the hexadecimal WUFFS_BASE__TOKEN__ETC constants defined in
 // token-public.h, this format is somewhat human-readable when piped through a
 // hex-dump program (such as /usr/bin/hd), printing one token per line.
 // Alternatively, pass the -h (--human-readable) flag to this program.
 //
 // Pass -a (--all-tokens) to print all tokens, including whitespace.
 //
 // If the input or output is larger than the program's buffers (64 MiB and
 // 131072 tokens by default), there may be multiple valid tokenizations of any
 // given input. For example, if a source string "abcde" straddles an I/O
 // boundary, it may be tokenized as single (not continued) 5-length string or
 // as a 3-length continued string followed by a 2-length string.
 //
 // A Wuffs token stream, in general, can support inputs more than 0xFFFF_FFFF
 // bytes long, but this program can not, as it tracks the tokens' cumulative
 // position as a uint32.

 #include <inttypes.h>
 #include <stdio.h>
 #include <string.h>
 #include <unistd.h>

 // Wuffs ships as a "single file C library" or "header file library" as per
 // https://github.com/nothings/stb/blob/master/docs/stb_howto.txt
 //
 // To use that single file as a "foo.c"-like implementation, instead of a
 // "foo.h"-like header, #define WUFFS_IMPLEMENTATION before #include'ing or
 // compiling it.
 #define WUFFS_IMPLEMENTATION

 // Defining the WUFFS_CONFIG__MODULE* macros are optional, but it lets users of
 // release/c/etc.c choose which parts of Wuffs to build. That file contains the
 // entire Wuffs standard library, implementing a variety of codecs and file
 // formats. Without this macro definition, an optimizing compiler or linker may
 // very well discard Wuffs code for unused codecs, but listing the Wuffs
 // modules we use makes that process explicit. Preprocessing means that such
 // code simply isn't compiled.
 #define WUFFS_CONFIG__MODULES
 #define WUFFS_CONFIG__MODULE__BASE
 #define WUFFS_CONFIG__MODULE__CBOR
 #define WUFFS_CONFIG__MODULE__JSON

 // If building this program in an environment that doesn't easily accommodate
 // relative includes, you can use the script/inline-c-relative-includes.go
 // program to generate a stand-alone C file.
 #include "../release/c/wuffs-unsupported-snapshot.c"

 // Wuffs allows either statically or dynamically allocated work buffers. This
 // program exercises static allocation.
 #if WUFFS_CBOR__DECODER_WORKBUF_LEN_MAX_INCL_WORST_CASE > \
     WUFFS_JSON__DECODER_WORKBUF_LEN_MAX_INCL_WORST_CASE
 #define WORK_BUFFER_ARRAY_SIZE \
   WUFFS_CBOR__DECODER_WORKBUF_LEN_MAX_INCL_WORST_CASE
 #else
 #define WORK_BUFFER_ARRAY_SIZE \
   WUFFS_JSON__DECODER_WORKBUF_LEN_MAX_INCL_WORST_CASE
 #endif
 #if WORK_BUFFER_ARRAY_SIZE > 0
 uint8_t g_work_buffer_array[WORK_BUFFER_ARRAY_SIZE];
 #else
 // Not all C/C++ compilers support 0-length arrays.
 uint8_t g_work_buffer_array[1];
 #endif

 #ifndef SRC_BUFFER_ARRAY_SIZE
 #define SRC_BUFFER_ARRAY_SIZE (64 * 1024 * 1024)
 #endif
 #ifndef TOKEN_BUFFER_ARRAY_SIZE
 #define TOKEN_BUFFER_ARRAY_SIZE (128 * 1024)
 #endif

 uint8_t g_src_buffer_array[SRC_BUFFER_ARRAY_SIZE];
 wuffs_base__token g_tok_buffer_array[TOKEN_BUFFER_ARRAY_SIZE];

 wuffs_base__io_buffer g_src;
 wuffs_base__token_buffer g_tok;

 wuffs_cbor__decoder g_cbor_decoder;
 wuffs_json__decoder g_json_decoder;
 wuffs_base__token_decoder* g_dec;
 wuffs_base__status g_dec_status;

 #define TRY(error_msg)         \
   do {                         \
     const char* z = error_msg; \
     if (z) {                   \
       return z;                \
     }                          \
   } while (false)

 // ignore_return_value suppresses errors from -Wall -Werror.
 static void  //
 ignore_return_value(int ignored) {}

 const char*  //
 read_src() {
   if (g_src.meta.closed) {
     return "main: internal error: read requested on a closed source";
   }
   wuffs_base__io_buffer__compact(&g_src);
   if (g_src.meta.wi >= g_src.data.len) {
     return "main: g_src buffer is full";
   }
   size_t n = fread(g_src.data.ptr + g_src.meta.wi, sizeof(uint8_t),
                    g_src.data.len - g_src.meta.wi, stdin);
   g_src.meta.wi += n;
   g_src.meta.closed = feof(stdin);
   if ((n == 0) && !g_src.meta.closed) {
     return "main: read error";
   }
   return NULL;
 }

 // ----

 typedef enum file_format_enum {
   FILE_FORMAT_JSON,
   FILE_FORMAT_CBOR,
 } file_format;

 struct {
   int remaining_argc;
   char** remaining_argv;

   bool all_tokens;
   bool human_readable;
   file_format input_format;
   bool quirks;
 } g_flags = {0};

 const char*  //
 parse_flags(int argc, char** argv) {
   int c = (argc > 0) ? 1 : 0;  // Skip argv[0], the program name.
   for (; c < argc; c++) {
     char* arg = argv[c];
     if (*arg++ != '-') {
       break;
     }

     // A double-dash "--foo" is equivalent to a single-dash "-foo". As special
     // cases, a bare "-" is not a flag (some programs may interpret it as
     // stdin) and a bare "--" means to stop parsing flags.
     if (*arg == '\x00') {
       break;
     } else if (*arg == '-') {
       arg++;
       if (*arg == '\x00') {
         c++;
         break;
       }
     }

     if (!strcmp(arg, "a") || !strcmp(arg, "all-tokens")) {
       g_flags.all_tokens = true;
       continue;
     }
     if (!strcmp(arg, "h") || !strcmp(arg, "human-readable")) {
       g_flags.human_readable = true;
       continue;
     }
     if (!strcmp(arg, "i=cbor") || !strcmp(arg, "input-format=cbor")) {
       g_flags.input_format = FILE_FORMAT_CBOR;
       continue;
     }
     if (!strcmp(arg, "i=json") || !strcmp(arg, "input-format=json")) {
       g_flags.input_format = FILE_FORMAT_JSON;
       continue;
     }
     if (!strcmp(arg, "q") || !strcmp(arg, "quirks")) {
       g_flags.quirks = true;
       continue;
     }

     return "main: unrecognized flag argument";
   }

   g_flags.remaining_argc = argc - c;
   g_flags.remaining_argv = argv + c;
   return NULL;
 }

 const char* g_vbc_names[16] = {
     "0:Filler...........",  //
     "1:Structure........",  //
     "2:String...........",  //
     "3:UnicodeCodePoint.",  //
     "4:Literal..........",  //
     "5:Number...........",  //
     "6:InlineIntSigned..",  //
     "7:InlineIntUnsigned",  //
     "8:Reserved.........",  //
     "9:Reserved.........",  //
     "A:Reserved.........",  //
     "B:Reserved.........",  //
     "C:Reserved.........",  //
     "D:Reserved.........",  //
     "E:Reserved.........",  //
     "F:Reserved.........",  //
 };

 const int g_base38_decode[38] = {
     ' ', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '?',       //
     'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm',  //
     'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z',  //
 };

 const char*  //
 main1(int argc, char** argv) {
   TRY(parse_flags(argc, argv));
   if (g_flags.remaining_argc > 0) {
     return "main: bad argument: use \"program < input\", not \"program input\"";
   }

   g_src = wuffs_base__make_io_buffer(
       wuffs_base__make_slice_u8(g_src_buffer_array, SRC_BUFFER_ARRAY_SIZE),
       wuffs_base__empty_io_buffer_meta());

   g_tok = wuffs_base__make_token_buffer(
       wuffs_base__make_slice_token(g_tok_buffer_array, TOKEN_BUFFER_ARRAY_SIZE),
       wuffs_base__empty_token_buffer_meta());

   if (g_flags.input_format == FILE_FORMAT_JSON) {
     wuffs_base__status init_status = wuffs_json__decoder__initialize(
         &g_json_decoder, sizeof__wuffs_json__decoder(), WUFFS_VERSION, 0);
     if (!wuffs_base__status__is_ok(&init_status)) {
       return wuffs_base__status__message(&init_status);
     }
     g_dec = wuffs_json__decoder__upcast_as__wuffs_base__token_decoder(
         &g_json_decoder);
   } else {
     wuffs_base__status init_status = wuffs_cbor__decoder__initialize(
         &g_cbor_decoder, sizeof__wuffs_cbor__decoder(), WUFFS_VERSION, 0);
     if (!wuffs_base__status__is_ok(&init_status)) {
       return wuffs_base__status__message(&init_status);
     }
     g_dec = wuffs_cbor__decoder__upcast_as__wuffs_base__token_decoder(
         &g_cbor_decoder);
   }

   if (g_flags.quirks) {
     uint32_t quirks[] = {
         WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_A,
         WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_CAPITAL_U,
         WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_E,
         WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_QUESTION_MARK,
         WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_SINGLE_QUOTE,
         WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_V,
         WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_X_AS_CODE_POINTS,
         WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_ZERO,
         WUFFS_JSON__QUIRK_ALLOW_COMMENT_BLOCK,
         WUFFS_JSON__QUIRK_ALLOW_COMMENT_LINE,
         WUFFS_JSON__QUIRK_ALLOW_EXTRA_COMMA,
         WUFFS_JSON__QUIRK_ALLOW_INF_NAN_NUMBERS,
         WUFFS_JSON__QUIRK_ALLOW_LEADING_ASCII_RECORD_SEPARATOR,
         WUFFS_JSON__QUIRK_ALLOW_LEADING_UNICODE_BYTE_ORDER_MARK,
         WUFFS_JSON__QUIRK_ALLOW_TRAILING_FILLER,
         WUFFS_JSON__QUIRK_REPLACE_INVALID_UNICODE,
         0,
     };
     uint32_t i;
     for (i = 0; quirks[i]; i++) {
       wuffs_base__token_decoder__set_quirk_enabled(g_dec, quirks[i], true);
     }
   }

   uint64_t pos = 0;
   while (true) {
     wuffs_base__status status = wuffs_base__token_decoder__decode_tokens(
         g_dec, &g_tok, &g_src,
         wuffs_base__make_slice_u8(g_work_buffer_array, WORK_BUFFER_ARRAY_SIZE));

     while (g_tok.meta.ri < g_tok.meta.wi) {
       wuffs_base__token* t = &g_tok.data.ptr[g_tok.meta.ri++];
       uint16_t len = wuffs_base__token__length(t);

       if (g_flags.all_tokens || (wuffs_base__token__value(t) != 0)) {
         uint16_t con = wuffs_base__token__continued(t) ? 1 : 0;
         int32_t vmajor = wuffs_base__token__value_major(t);
         uint32_t vminor = wuffs_base__token__value_minor(t);
         uint8_t vbc = wuffs_base__token__value_base_category(t);
         uint32_t vbd = wuffs_base__token__value_base_detail(t);

         if (g_flags.human_readable) {
           printf("pos=0x%08" PRIX32 "  len=0x%04" PRIX16 "  con=%" PRId16 "  ",
                  (uint32_t)(pos), len, con);

           if (vmajor > 0) {
             char vmajor_name[5];
             vmajor_name[0] = '*';
             vmajor_name[1] = '*';
             vmajor_name[2] = '*';
             vmajor_name[3] = '*';
             vmajor_name[4] = '\x00';
             uint32_t m = vmajor;
             if (m < 38 * 38 * 38 * 38) {
               uint32_t m0 = m / (38 * 38 * 38);
               m -= m0 * (38 * 38 * 38);
               vmajor_name[0] = g_base38_decode[m0];

               uint32_t m1 = m / (38 * 38);
               m -= m1 * (38 * 38);
               vmajor_name[1] = g_base38_decode[m1];

               uint32_t m2 = m / (38);
               m -= m2 * (38);
               vmajor_name[2] = g_base38_decode[m2];

               uint32_t m3 = m;
               vmajor_name[3] = g_base38_decode[m3];
             }

             printf("vmajor=0x%06" PRIX32 ":%s vminor=0x%07" PRIX32 "\n", vmajor,
                    vmajor_name, vminor);
           } else if (vmajor == 0) {
             printf("vbc=%s  vbd=0x%06" PRIX32 "\n", g_vbc_names[vbc & 15], vbd);
           } else {
             printf("extended... vextension=0x%012" PRIX64 "\n",
                    wuffs_base__token__value_extension(t));
           }

         } else {
           uint8_t buf[16];
           wuffs_base__poke_u32be__no_bounds_check(&buf[0x0], (uint32_t)(pos));
           wuffs_base__poke_u16be__no_bounds_check(&buf[0x4], len);
           wuffs_base__poke_u16be__no_bounds_check(&buf[0x6], con);
           if (vmajor > 0) {
             wuffs_base__poke_u32be__no_bounds_check(&buf[0x8], vmajor);
             wuffs_base__poke_u32be__no_bounds_check(&buf[0xC], vminor);
           } else if (vmajor == 0) {
             wuffs_base__poke_u32be__no_bounds_check(&buf[0x8], 0);
             wuffs_base__poke_u8__no_bounds_check(&buf[0x000C], vbc);
             wuffs_base__poke_u24be__no_bounds_check(&buf[0xD], vbd);
           } else {
             wuffs_base__poke_u8__no_bounds_check(&buf[0x0008], 0x01);
             wuffs_base__poke_u56be__no_bounds_check(
                 &buf[0x9], wuffs_base__token__value_extension(t));
           }
           const int stdout_fd = 1;
           ignore_return_value(write(stdout_fd, &buf[0], 16));
         }
       }

       pos += len;
       if (pos > 0xFFFFFFFF) {
         return "main: input is too long";
       }
     }

     if (status.repr == NULL) {
       return NULL;
     } else if (status.repr == wuffs_base__suspension__short_read) {
       TRY(read_src());
     } else if (status.repr == wuffs_base__suspension__short_write) {
       wuffs_base__token_buffer__compact(&g_tok);
     } else {
       return wuffs_base__status__message(&status);
     }
   }
 }

 // ----

 int  //
 compute_exit_code(const char* status_msg) {
   if (!status_msg) {
     return 0;
   }
   size_t n = strnlen(status_msg, 2047);
   if (n >= 2047) {
     status_msg = "main: internal error: error message is too long";
     n = strnlen(status_msg, 2047);
   }
   fprintf(stderr, "%s\n", status_msg);
   // Return an exit code of 1 for regular (forseen) errors, e.g. badly
   // formatted or unsupported input.
   //
   // Return an exit code of 2 for internal (exceptional) errors, e.g. defensive
   // run-time checks found that an internal invariant did not hold.
   //
   // Automated testing, including badly formatted inputs, can therefore
   // discriminate between expected failure (exit code 1) and unexpected failure
   // (other non-zero exit codes). Specifically, exit code 2 for internal
   // invariant violation, exit code 139 (which is 128 + SIGSEGV on x86_64
   // linux) for a segmentation fault (e.g. null pointer dereference).
   return strstr(status_msg, "internal error:") ? 2 : 1;
 }

 int  //
 main(int argc, char** argv) {
   const char* z = main1(argc, argv);
   int exit_code = compute_exit_code(z);
   return exit_code;
 }
	// Copyright 2020 The Wuffs Authors.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// https://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	// ----------------

	// print-json-token-debug-format.c parses JSON from stdin and prints the
	// resulting token stream, eliding any non-essential (e.g. whitespace) tokens.
	//
	// The output format is only for debugging or regression testing, and certainly
	// not for long term storage. It isn't guaranteed to be stable between versions
	// of this program and of the Wuffs standard library.
	//
	// It prints 16 bytes (128 bits) per token, containing big-endian numbers:
	//
	// +---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
	// \| \| \| \| \| VALUE_EXTENSION \|
	// \| POS \| LEN \| CON \|EXT\|VALUE_MAJOR\| VALUE_MINOR \|
	// \| \| \| \| \| 0 \|VBC\| VBD \|
	// +---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+---+
	//
	// - POS (4 bytes) is the position: the sum of all previous tokens' lengths,
	// including elided tokens.
	// - LEN (2 bytes) is the length.
	// - CON (2 bytes) is the continued bit
	// - EXT (1 bytes) is 1 for extended and 0 for simple tokens.
	//
	// Extended tokens have a VALUE_EXTENSION (7 bytes).
	//
	// Simple tokens have a VALUE_MAJOR (3 bytes) and then either 4 bytes
	// VALUE_MINOR (when VALUE_MAJOR is non-zero) or (1 + 3) bytes
	// VALUE_BASE_CATEGORY and VALUE_BASE_DETAIL (when VALUE_MAJOR is zero).
	//
	// ----
	//
	// Together with the hexadecimal WUFFS_BASE__TOKEN__ETC constants defined in
	// token-public.h, this format is somewhat human-readable when piped through a
	// hex-dump program (such as /usr/bin/hd), printing one token per line.
	// Alternatively, pass the -h (--human-readable) flag to this program.
	//
	// Pass -a (--all-tokens) to print all tokens, including whitespace.
	//
	// If the input or output is larger than the program's buffers (64 MiB and
	// 131072 tokens by default), there may be multiple valid tokenizations of any
	// given input. For example, if a source string "abcde" straddles an I/O
	// boundary, it may be tokenized as single (not continued) 5-length string or
	// as a 3-length continued string followed by a 2-length string.
	//
	// A Wuffs token stream, in general, can support inputs more than 0xFFFF_FFFF
	// bytes long, but this program can not, as it tracks the tokens' cumulative
	// position as a uint32.

	#include <inttypes.h>
	#include <stdio.h>
	#include <string.h>
	#include <unistd.h>

	// Wuffs ships as a "single file C library" or "header file library" as per
	// https://github.com/nothings/stb/blob/master/docs/stb_howto.txt
	//
	// To use that single file as a "foo.c"-like implementation, instead of a
	// "foo.h"-like header, #define WUFFS_IMPLEMENTATION before #include'ing or
	// compiling it.
	#define WUFFS_IMPLEMENTATION

	// Defining the WUFFS_CONFIG__MODULE* macros are optional, but it lets users of
	// release/c/etc.c choose which parts of Wuffs to build. That file contains the
	// entire Wuffs standard library, implementing a variety of codecs and file
	// formats. Without this macro definition, an optimizing compiler or linker may
	// very well discard Wuffs code for unused codecs, but listing the Wuffs
	// modules we use makes that process explicit. Preprocessing means that such
	// code simply isn't compiled.
	#define WUFFS_CONFIG__MODULES
	#define WUFFS_CONFIG__MODULE__BASE
	#define WUFFS_CONFIG__MODULE__CBOR
	#define WUFFS_CONFIG__MODULE__JSON

	// If building this program in an environment that doesn't easily accommodate
	// relative includes, you can use the script/inline-c-relative-includes.go
	// program to generate a stand-alone C file.
	#include "../release/c/wuffs-unsupported-snapshot.c"

	// Wuffs allows either statically or dynamically allocated work buffers. This
	// program exercises static allocation.
	#if WUFFS_CBOR__DECODER_WORKBUF_LEN_MAX_INCL_WORST_CASE > \
	WUFFS_JSON__DECODER_WORKBUF_LEN_MAX_INCL_WORST_CASE
	#define WORK_BUFFER_ARRAY_SIZE \
	WUFFS_CBOR__DECODER_WORKBUF_LEN_MAX_INCL_WORST_CASE
	#else
	#define WORK_BUFFER_ARRAY_SIZE \
	WUFFS_JSON__DECODER_WORKBUF_LEN_MAX_INCL_WORST_CASE
	#endif
	#if WORK_BUFFER_ARRAY_SIZE > 0
	uint8_t g_work_buffer_array[WORK_BUFFER_ARRAY_SIZE];
	#else
	// Not all C/C++ compilers support 0-length arrays.
	uint8_t g_work_buffer_array[1];
	#endif

	#ifndef SRC_BUFFER_ARRAY_SIZE
	#define SRC_BUFFER_ARRAY_SIZE (64 * 1024 * 1024)
	#endif
	#ifndef TOKEN_BUFFER_ARRAY_SIZE
	#define TOKEN_BUFFER_ARRAY_SIZE (128 * 1024)
	#endif

	uint8_t g_src_buffer_array[SRC_BUFFER_ARRAY_SIZE];
	wuffs_base__token g_tok_buffer_array[TOKEN_BUFFER_ARRAY_SIZE];

	wuffs_base__io_buffer g_src;
	wuffs_base__token_buffer g_tok;

	wuffs_cbor__decoder g_cbor_decoder;
	wuffs_json__decoder g_json_decoder;
	wuffs_base__token_decoder* g_dec;
	wuffs_base__status g_dec_status;

	#define TRY(error_msg) \
	do { \
	const char* z = error_msg; \
	if (z) { \
	return z; \
	} \
	} while (false)

	// ignore_return_value suppresses errors from -Wall -Werror.
	static void //
	ignore_return_value(int ignored) {}

	const char* //
	read_src() {
	if (g_src.meta.closed) {
	return "main: internal error: read requested on a closed source";
	}
	wuffs_base__io_buffer__compact(&g_src);
	if (g_src.meta.wi >= g_src.data.len) {
	return "main: g_src buffer is full";
	}
	size_t n = fread(g_src.data.ptr + g_src.meta.wi, sizeof(uint8_t),
	g_src.data.len - g_src.meta.wi, stdin);
	g_src.meta.wi += n;
	g_src.meta.closed = feof(stdin);
	if ((n == 0) && !g_src.meta.closed) {
	return "main: read error";
	}
	return NULL;
	}

	// ----

	typedef enum file_format_enum {
	FILE_FORMAT_JSON,
	FILE_FORMAT_CBOR,
	} file_format;

	struct {
	int remaining_argc;
	char** remaining_argv;

	bool all_tokens;
	bool human_readable;
	file_format input_format;
	bool quirks;
	} g_flags = {0};

	const char* //
	parse_flags(int argc, char** argv) {
	int c = (argc > 0) ? 1 : 0; // Skip argv[0], the program name.
	for (; c < argc; c++) {
	char* arg = argv[c];
	if (*arg++ != '-') {
	break;
	}

	// A double-dash "--foo" is equivalent to a single-dash "-foo". As special
	// cases, a bare "-" is not a flag (some programs may interpret it as
	// stdin) and a bare "--" means to stop parsing flags.
	if (*arg == '\x00') {
	break;
	} else if (*arg == '-') {
	arg++;
	if (*arg == '\x00') {
	c++;
	break;
	}
	}

	if (!strcmp(arg, "a") \|\| !strcmp(arg, "all-tokens")) {
	g_flags.all_tokens = true;
	continue;
	}
	if (!strcmp(arg, "h") \|\| !strcmp(arg, "human-readable")) {
	g_flags.human_readable = true;
	continue;
	}
	if (!strcmp(arg, "i=cbor") \|\| !strcmp(arg, "input-format=cbor")) {
	g_flags.input_format = FILE_FORMAT_CBOR;
	continue;
	}
	if (!strcmp(arg, "i=json") \|\| !strcmp(arg, "input-format=json")) {
	g_flags.input_format = FILE_FORMAT_JSON;
	continue;
	}
	if (!strcmp(arg, "q") \|\| !strcmp(arg, "quirks")) {
	g_flags.quirks = true;
	continue;
	}

	return "main: unrecognized flag argument";
	}

	g_flags.remaining_argc = argc - c;
	g_flags.remaining_argv = argv + c;
	return NULL;
	}

	const char* g_vbc_names[16] = {
	"0:Filler...........", //
	"1:Structure........", //
	"2:String...........", //
	"3:UnicodeCodePoint.", //
	"4:Literal..........", //
	"5:Number...........", //
	"6:InlineIntSigned..", //
	"7:InlineIntUnsigned", //
	"8:Reserved.........", //
	"9:Reserved.........", //
	"A:Reserved.........", //
	"B:Reserved.........", //
	"C:Reserved.........", //
	"D:Reserved.........", //
	"E:Reserved.........", //
	"F:Reserved.........", //
	};

	const int g_base38_decode[38] = {
	' ', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '?', //
	'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', //
	'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', //
	};

	const char* //
	main1(int argc, char** argv) {
	TRY(parse_flags(argc, argv));
	if (g_flags.remaining_argc > 0) {
	return "main: bad argument: use \"program < input\", not \"program input\"";
	}

	g_src = wuffs_base__make_io_buffer(
	wuffs_base__make_slice_u8(g_src_buffer_array, SRC_BUFFER_ARRAY_SIZE),
	wuffs_base__empty_io_buffer_meta());

	g_tok = wuffs_base__make_token_buffer(
	wuffs_base__make_slice_token(g_tok_buffer_array, TOKEN_BUFFER_ARRAY_SIZE),
	wuffs_base__empty_token_buffer_meta());

	if (g_flags.input_format == FILE_FORMAT_JSON) {
	wuffs_base__status init_status = wuffs_json__decoder__initialize(
	&g_json_decoder, sizeof__wuffs_json__decoder(), WUFFS_VERSION, 0);
	if (!wuffs_base__status__is_ok(&init_status)) {
	return wuffs_base__status__message(&init_status);
	}
	g_dec = wuffs_json__decoder__upcast_as__wuffs_base__token_decoder(
	&g_json_decoder);
	} else {
	wuffs_base__status init_status = wuffs_cbor__decoder__initialize(
	&g_cbor_decoder, sizeof__wuffs_cbor__decoder(), WUFFS_VERSION, 0);
	if (!wuffs_base__status__is_ok(&init_status)) {
	return wuffs_base__status__message(&init_status);
	}
	g_dec = wuffs_cbor__decoder__upcast_as__wuffs_base__token_decoder(
	&g_cbor_decoder);
	}

	if (g_flags.quirks) {
	uint32_t quirks[] = {
	WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_A,
	WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_CAPITAL_U,
	WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_E,
	WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_QUESTION_MARK,
	WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_SINGLE_QUOTE,
	WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_V,
	WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_X_AS_CODE_POINTS,
	WUFFS_JSON__QUIRK_ALLOW_BACKSLASH_ZERO,
	WUFFS_JSON__QUIRK_ALLOW_COMMENT_BLOCK,
	WUFFS_JSON__QUIRK_ALLOW_COMMENT_LINE,
	WUFFS_JSON__QUIRK_ALLOW_EXTRA_COMMA,
	WUFFS_JSON__QUIRK_ALLOW_INF_NAN_NUMBERS,
	WUFFS_JSON__QUIRK_ALLOW_LEADING_ASCII_RECORD_SEPARATOR,
	WUFFS_JSON__QUIRK_ALLOW_LEADING_UNICODE_BYTE_ORDER_MARK,
	WUFFS_JSON__QUIRK_ALLOW_TRAILING_FILLER,
	WUFFS_JSON__QUIRK_REPLACE_INVALID_UNICODE,
	0,
	};
	uint32_t i;
	for (i = 0; quirks[i]; i++) {
	wuffs_base__token_decoder__set_quirk_enabled(g_dec, quirks[i], true);
	}
	}

	uint64_t pos = 0;
	while (true) {
	wuffs_base__status status = wuffs_base__token_decoder__decode_tokens(
	g_dec, &g_tok, &g_src,
	wuffs_base__make_slice_u8(g_work_buffer_array, WORK_BUFFER_ARRAY_SIZE));

	while (g_tok.meta.ri < g_tok.meta.wi) {
	wuffs_base__token* t = &g_tok.data.ptr[g_tok.meta.ri++];
	uint16_t len = wuffs_base__token__length(t);

	if (g_flags.all_tokens \|\| (wuffs_base__token__value(t) != 0)) {
	uint16_t con = wuffs_base__token__continued(t) ? 1 : 0;
	int32_t vmajor = wuffs_base__token__value_major(t);
	uint32_t vminor = wuffs_base__token__value_minor(t);
	uint8_t vbc = wuffs_base__token__value_base_category(t);
	uint32_t vbd = wuffs_base__token__value_base_detail(t);

	if (g_flags.human_readable) {
	printf("pos=0x%08" PRIX32 " len=0x%04" PRIX16 " con=%" PRId16 " ",
	(uint32_t)(pos), len, con);

	if (vmajor > 0) {
	char vmajor_name[5];
	vmajor_name[0] = '*';
	vmajor_name[1] = '*';
	vmajor_name[2] = '*';
	vmajor_name[3] = '*';
	vmajor_name[4] = '\x00';
	uint32_t m = vmajor;
	if (m < 38 * 38 * 38 * 38) {
	uint32_t m0 = m / (38 * 38 * 38);
	m -= m0 * (38 * 38 * 38);
	vmajor_name[0] = g_base38_decode[m0];

	uint32_t m1 = m / (38 * 38);
	m -= m1 * (38 * 38);
	vmajor_name[1] = g_base38_decode[m1];

	uint32_t m2 = m / (38);
	m -= m2 * (38);
	vmajor_name[2] = g_base38_decode[m2];

	uint32_t m3 = m;
	vmajor_name[3] = g_base38_decode[m3];
	}

	printf("vmajor=0x%06" PRIX32 ":%s vminor=0x%07" PRIX32 "\n", vmajor,
	vmajor_name, vminor);
	} else if (vmajor == 0) {
	printf("vbc=%s vbd=0x%06" PRIX32 "\n", g_vbc_names[vbc & 15], vbd);
	} else {
	printf("extended... vextension=0x%012" PRIX64 "\n",
	wuffs_base__token__value_extension(t));
	}

	} else {
	uint8_t buf[16];
	wuffs_base__poke_u32be__no_bounds_check(&buf[0x0], (uint32_t)(pos));
	wuffs_base__poke_u16be__no_bounds_check(&buf[0x4], len);
	wuffs_base__poke_u16be__no_bounds_check(&buf[0x6], con);
	if (vmajor > 0) {
	wuffs_base__poke_u32be__no_bounds_check(&buf[0x8], vmajor);
	wuffs_base__poke_u32be__no_bounds_check(&buf[0xC], vminor);
	} else if (vmajor == 0) {
	wuffs_base__poke_u32be__no_bounds_check(&buf[0x8], 0);
	wuffs_base__poke_u8__no_bounds_check(&buf[0x000C], vbc);
	wuffs_base__poke_u24be__no_bounds_check(&buf[0xD], vbd);
	} else {
	wuffs_base__poke_u8__no_bounds_check(&buf[0x0008], 0x01);
	wuffs_base__poke_u56be__no_bounds_check(
	&buf[0x9], wuffs_base__token__value_extension(t));
	}
	const int stdout_fd = 1;
	ignore_return_value(write(stdout_fd, &buf[0], 16));
	}
	}

	pos += len;
	if (pos > 0xFFFFFFFF) {
	return "main: input is too long";
	}
	}

	if (status.repr == NULL) {
	return NULL;
	} else if (status.repr == wuffs_base__suspension__short_read) {
	TRY(read_src());
	} else if (status.repr == wuffs_base__suspension__short_write) {
	wuffs_base__token_buffer__compact(&g_tok);
	} else {
	return wuffs_base__status__message(&status);
	}
	}
	}

	// ----

	int //
	compute_exit_code(const char* status_msg) {
	if (!status_msg) {
	return 0;
	}
	size_t n = strnlen(status_msg, 2047);
	if (n >= 2047) {
	status_msg = "main: internal error: error message is too long";
	n = strnlen(status_msg, 2047);
	}
	fprintf(stderr, "%s\n", status_msg);
	// Return an exit code of 1 for regular (forseen) errors, e.g. badly
	// formatted or unsupported input.
	//
	// Return an exit code of 2 for internal (exceptional) errors, e.g. defensive
	// run-time checks found that an internal invariant did not hold.
	//
	// Automated testing, including badly formatted inputs, can therefore
	// discriminate between expected failure (exit code 1) and unexpected failure
	// (other non-zero exit codes). Specifically, exit code 2 for internal
	// invariant violation, exit code 139 (which is 128 + SIGSEGV on x86_64
	// linux) for a segmentation fault (e.g. null pointer dereference).
	return strstr(status_msg, "internal error:") ? 2 : 1;
	}

	int //
	main(int argc, char** argv) {
	const char* z = main1(argc, argv);
	int exit_code = compute_exit_code(z);
	return exit_code;
	}