example/gifplayer/gifplayer.c - external/github.com/google/wuffs - Git at Google

 // Copyright 2018 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.

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

 /*
 gifplayer prints an ASCII representation of the GIF image read from stdin. To
 play Eadweard Muybridge's iconic galloping horse animation, run:

 $CC gifplayer.c && ./a.out < ../../test/data/muybridge.gif; rm -f a.out

 for a C compiler $CC, such as clang or gcc.

 Add the -color flag to a.out to get 24 bit color ("true color") terminal output
 (in the UTF-8 format) instead of plain ASCII output. Not all terminal emulators
 support true color: https://gist.github.com/XVilka/8346728
 */

 #include <errno.h>
 #include <stdbool.h>
 #include <stdint.h>
 #include <stdio.h>
 #include <stdlib.h>

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

 #if defined(__unix__) || defined(__MACH__)

 #include <time.h>
 #include <unistd.h>
 #define WUFFS_EXAMPLE_USE_TIMERS

 bool g_started = false;
 struct timespec g_start_time = {0};

 int64_t  //
 micros_since_start(struct timespec* now) {
   if (!g_started) {
     return 0;
   }
   int64_t nanos = (int64_t)(now->tv_sec - g_start_time.tv_sec) * 1000000000 +
                   (int64_t)(now->tv_nsec - g_start_time.tv_nsec);
   if (nanos < 0) {
     return 0;
   }
   return nanos / 1000;
 }

 #else
 #warning "TODO: timers on non-POSIX systems"
 #endif

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

 // 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__LZW
 #define WUFFS_CONFIG__MODULE__GIF

 // 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"

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

 // Limit the input GIF image to (64 MiB - 1 byte) compressed and 4096 × 4096
 // pixels uncompressed. This is a limitation of this example program (which
 // uses the Wuffs standard library), not a limitation of Wuffs per se.
 //
 // We keep the whole input in memory, instead of one-pass stream processing,
 // because playing a looping animation requires re-winding the input.
 #ifndef SRC_BUFFER_ARRAY_SIZE
 #define SRC_BUFFER_ARRAY_SIZE (64 * 1024 * 1024)
 #endif
 #ifndef MAX_DIMENSION
 #define MAX_DIMENSION (4096)
 #endif

 uint8_t g_src_buffer_array[SRC_BUFFER_ARRAY_SIZE] = {0};
 size_t g_src_len = 0;

 uint8_t* g_curr_dst_buffer = NULL;
 uint8_t* g_prev_dst_buffer = NULL;
 size_t g_dst_len;  // Length in bytes.

 wuffs_base__slice_u8 g_workbuf = {0};
 wuffs_base__slice_u8 g_printbuf = {0};

 bool g_first_play = true;
 uint32_t g_num_loops_remaining = 0;
 wuffs_base__image_config g_ic = {0};
 wuffs_base__pixel_buffer g_pb = {0};

 wuffs_base__flicks g_cumulative_delay_micros = 0;

 const char*  //
 read_stdin() {
   while (g_src_len < SRC_BUFFER_ARRAY_SIZE) {
     size_t n = fread(g_src_buffer_array + g_src_len, sizeof(uint8_t),
                      SRC_BUFFER_ARRAY_SIZE - g_src_len, stdin);
     g_src_len += n;
     if (feof(stdin)) {
       return NULL;
     } else if (ferror(stdin)) {
       return "read error";
     }
   }
   return "input is too large";
 }

 // ----

 struct {
   int remaining_argc;
   char** remaining_argv;

   bool color;
   bool quirk_honor_background_color;
 } 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, "c") || !strcmp(arg, "color")) {
       g_flags.color = true;
       continue;
     }
     if (!strcmp(arg, "quirk_honor_background_color")) {
       g_flags.quirk_honor_background_color = true;
       continue;
     }

     return "main: unrecognized flag argument";
   }

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

 // ----

 // BYTES_PER_COLOR_PIXEL is long enough to contain "\x1B[38;2;255;255;255mABC"
 // plus a trailing NUL byte and a few bytes of slack. It starts with a true
 // color terminal escape code. ABC is three bytes for the UTF-8 representation
 // "\xE2\x96\x88" of "█", U+2588 FULL BLOCK.
 #define BYTES_PER_COLOR_PIXEL 32

 const char* g_reset_color = "\x1B[0m";

 void  //
 restore_background(wuffs_base__pixel_buffer* pb,
                    wuffs_base__rect_ie_u32 bounds,
                    wuffs_base__color_u32_argb_premul background_color) {
   size_t width4 = (size_t)(wuffs_base__pixel_config__width(&pb->pixcfg)) * 4;
   size_t y;
   for (y = bounds.min_incl_y; y < bounds.max_excl_y; y++) {
     size_t x;
     uint8_t* d = g_curr_dst_buffer + (y * width4) + (bounds.min_incl_x * 4);
     for (x = bounds.min_incl_x; x < bounds.max_excl_x; x++) {
       wuffs_base__poke_u32le__no_bounds_check(d, background_color);
       d += sizeof(wuffs_base__color_u32_argb_premul);
     }
   }
 }

 size_t  //
 print_ascii_art(wuffs_base__pixel_buffer* pb) {
   uint32_t width = wuffs_base__pixel_config__width(&pb->pixcfg);
   uint32_t height = wuffs_base__pixel_config__height(&pb->pixcfg);

   uint8_t* d = g_curr_dst_buffer;
   uint8_t* p = g_printbuf.ptr;
   *p++ = '\n';
   uint32_t y;
   for (y = 0; y < height; y++) {
     uint32_t x;
     for (x = 0; x < width; x++) {
       wuffs_base__color_u32_argb_premul c =
           wuffs_base__peek_u32le__no_bounds_check(d);
       d += sizeof(wuffs_base__color_u32_argb_premul);
       // Convert to grayscale via the formula
       //  Y = (0.299 * R) + (0.587 * G) + (0.114 * B)
       // translated into fixed point arithmetic.
       uint32_t b = 0xFF & (c >> 0);
       uint32_t g = 0xFF & (c >> 8);
       uint32_t r = 0xFF & (c >> 16);
       uint32_t gray =
           ((19595 * r) + (38470 * g) + (7471 * b) + (1 << 15)) >> 16;
       *p++ = "-:=+IOX@"[(gray & 0xFF) >> 5];
     }
     *p++ = '\n';
   }
   return p - g_printbuf.ptr;
 }

 size_t  //
 print_color_art(wuffs_base__pixel_buffer* pb) {
   uint32_t width = wuffs_base__pixel_config__width(&pb->pixcfg);
   uint32_t height = wuffs_base__pixel_config__height(&pb->pixcfg);

   uint8_t* d = g_curr_dst_buffer;
   uint8_t* p = g_printbuf.ptr;
   *p++ = '\n';
   p += sprintf((char*)p, "%s", g_reset_color);
   uint32_t y;
   for (y = 0; y < height; y++) {
     uint32_t x;
     for (x = 0; x < width; x++) {
       wuffs_base__color_u32_argb_premul c =
           wuffs_base__peek_u32le__no_bounds_check(d);
       d += sizeof(wuffs_base__color_u32_argb_premul);
       int b = 0xFF & (c >> 0);
       int g = 0xFF & (c >> 8);
       int r = 0xFF & (c >> 16);
       // "\xE2\x96\x88" is U+2588 FULL BLOCK. Before that is a true color
       // terminal escape code.
       p += sprintf((char*)p, "\x1B[38;2;%d;%d;%dm\xE2\x96\x88", r, g, b);
     }
     *p++ = '\n';
   }
   p += sprintf((char*)p, "%s", g_reset_color);
   return p - g_printbuf.ptr;
 }

 // ----

 const char*  //
 try_allocate(wuffs_gif__decoder* dec) {
   uint32_t width = wuffs_base__pixel_config__width(&g_ic.pixcfg);
   uint32_t height = wuffs_base__pixel_config__height(&g_ic.pixcfg);
   uint64_t num_pixels = ((uint64_t)width) * ((uint64_t)height);
   if (num_pixels > (SIZE_MAX / sizeof(wuffs_base__color_u32_argb_premul))) {
     return "could not allocate dst buffer";
   }

   g_dst_len = num_pixels * sizeof(wuffs_base__color_u32_argb_premul);
   g_curr_dst_buffer = (uint8_t*)calloc(g_dst_len, 1);
   if (!g_curr_dst_buffer) {
     return "could not allocate curr-dst buffer";
   }

   g_prev_dst_buffer = (uint8_t*)malloc(g_dst_len);
   if (!g_prev_dst_buffer) {
     return "could not allocate prev-dst buffer";
   }

   uint64_t workbuf_len_max_incl = wuffs_gif__decoder__workbuf_len(dec).max_incl;
   if (workbuf_len_max_incl > 0) {
     g_workbuf = wuffs_base__malloc_slice_u8(
         malloc, wuffs_gif__decoder__workbuf_len(dec).max_incl);
     if (!g_workbuf.ptr) {
       return "could not allocate work buffer";
     }
   } else {
     g_workbuf = wuffs_base__make_slice_u8(NULL, 0);
   }

   uint64_t plen = 1 + ((uint64_t)(width) + 1) * (uint64_t)(height);
   uint64_t bytes_per_print_pixel = g_flags.color ? BYTES_PER_COLOR_PIXEL : 1;
   if (plen <= ((uint64_t)SIZE_MAX) / bytes_per_print_pixel) {
     g_printbuf =
         wuffs_base__malloc_slice_u8(malloc, plen * bytes_per_print_pixel);
   }
   if (!g_printbuf.ptr) {
     return "could not allocate print buffer";
   }

   return NULL;
 }

 const char*  //
 allocate(wuffs_gif__decoder* dec) {
   const char* status_msg = try_allocate(dec);
   if (status_msg) {
     free(g_printbuf.ptr);
     g_printbuf = wuffs_base__make_slice_u8(NULL, 0);
     free(g_workbuf.ptr);
     g_workbuf = wuffs_base__make_slice_u8(NULL, 0);
     free(g_prev_dst_buffer);
     g_prev_dst_buffer = NULL;
     free(g_curr_dst_buffer);
     g_curr_dst_buffer = NULL;
     g_dst_len = 0;
   }
   return status_msg;
 }

 const char*  //
 play() {
   wuffs_gif__decoder dec;
   wuffs_base__status i_status =
       wuffs_gif__decoder__initialize(&dec, sizeof dec, WUFFS_VERSION, 0);
   if (!wuffs_base__status__is_ok(&i_status)) {
     return wuffs_base__status__message(&i_status);
   }

   if (g_flags.quirk_honor_background_color) {
     wuffs_gif__decoder__set_quirk_enabled(
         &dec, WUFFS_GIF__QUIRK_HONOR_BACKGROUND_COLOR, true);
   }

   wuffs_base__io_buffer src;
   src.data.ptr = &g_src_buffer_array[0];
   src.data.len = g_src_len;
   src.meta.wi = g_src_len;
   src.meta.ri = 0;
   src.meta.pos = 0;
   src.meta.closed = true;

   if (g_first_play) {
     wuffs_base__status dic_status =
         wuffs_gif__decoder__decode_image_config(&dec, &g_ic, &src);
     if (!wuffs_base__status__is_ok(&dic_status)) {
       return wuffs_base__status__message(&dic_status);
     }
     if (!wuffs_base__image_config__is_valid(&g_ic)) {
       return "invalid image configuration";
     }
     uint32_t width = wuffs_base__pixel_config__width(&g_ic.pixcfg);
     uint32_t height = wuffs_base__pixel_config__height(&g_ic.pixcfg);
     if ((width > MAX_DIMENSION) || (height > MAX_DIMENSION)) {
       return "image dimensions are too large";
     }

     // Override the source's indexed pixel format to be non-indexed.
     wuffs_base__pixel_config__set(
         &g_ic.pixcfg, WUFFS_BASE__PIXEL_FORMAT__BGRA_PREMUL,
         WUFFS_BASE__PIXEL_SUBSAMPLING__NONE, width, height);

     const char* msg = allocate(&dec);
     if (msg) {
       return msg;
     }
     wuffs_base__status sfs0_status = wuffs_base__pixel_buffer__set_from_slice(
         &g_pb, &g_ic.pixcfg,
         wuffs_base__make_slice_u8(g_curr_dst_buffer, g_dst_len));
     if (!wuffs_base__status__is_ok(&sfs0_status)) {
       return wuffs_base__status__message(&sfs0_status);
     }
   }

   while (1) {
     wuffs_base__frame_config fc = {0};
     wuffs_base__status dfc_status =
         wuffs_gif__decoder__decode_frame_config(&dec, &fc, &src);
     if (!wuffs_base__status__is_ok(&dfc_status)) {
       if (dfc_status.repr == wuffs_base__note__end_of_data) {
         break;
       }
       return wuffs_base__status__message(&dfc_status);
     }

     if (wuffs_base__frame_config__index(&fc) == 0) {
       wuffs_base__color_u32_argb_premul background_color =
           wuffs_base__frame_config__background_color(&fc);
       size_t i;
       size_t n = g_dst_len / sizeof(wuffs_base__color_u32_argb_premul);
       uint8_t* p = g_curr_dst_buffer;
       for (i = 0; i < n; i++) {
         wuffs_base__poke_u32le__no_bounds_check(p, background_color);
         p += sizeof(wuffs_base__color_u32_argb_premul);
       }
     }

     switch (wuffs_base__frame_config__disposal(&fc)) {
       case WUFFS_BASE__ANIMATION_DISPOSAL__RESTORE_PREVIOUS: {
         memcpy(g_prev_dst_buffer, g_curr_dst_buffer, g_dst_len);
         break;
       }
     }

     wuffs_base__status decode_frame_status = wuffs_gif__decoder__decode_frame(
         &dec, &g_pb, &src,
         wuffs_base__frame_config__overwrite_instead_of_blend(&fc)
             ? WUFFS_BASE__PIXEL_BLEND__SRC
             : WUFFS_BASE__PIXEL_BLEND__SRC_OVER,
         g_workbuf, NULL);
     if (decode_frame_status.repr == wuffs_base__note__end_of_data) {
       break;
     }

     size_t n = g_flags.color ? print_color_art(&g_pb) : print_ascii_art(&g_pb);

     switch (wuffs_base__frame_config__disposal(&fc)) {
       case WUFFS_BASE__ANIMATION_DISPOSAL__RESTORE_BACKGROUND: {
         restore_background(&g_pb, wuffs_base__frame_config__bounds(&fc),
                            wuffs_base__frame_config__background_color(&fc));
         break;
       }
       case WUFFS_BASE__ANIMATION_DISPOSAL__RESTORE_PREVIOUS: {
         uint8_t* swap = g_curr_dst_buffer;
         g_curr_dst_buffer = g_prev_dst_buffer;
         g_prev_dst_buffer = swap;

         wuffs_base__status sfs1_status =
             wuffs_base__pixel_buffer__set_from_slice(
                 &g_pb, &g_ic.pixcfg,
                 wuffs_base__make_slice_u8(g_curr_dst_buffer, g_dst_len));
         if (!wuffs_base__status__is_ok(&sfs1_status)) {
           return wuffs_base__status__message(&sfs1_status);
         }
         break;
       }
     }

 #if defined(WUFFS_EXAMPLE_USE_TIMERS)
     if (g_started) {
       struct timespec now;
       if (clock_gettime(CLOCK_MONOTONIC, &now)) {
         return strerror(errno);
       }
       int64_t elapsed_micros = micros_since_start(&now);
       if (g_cumulative_delay_micros > elapsed_micros) {
         usleep(g_cumulative_delay_micros - elapsed_micros);
       }

     } else {
       if (clock_gettime(CLOCK_MONOTONIC, &g_start_time)) {
         return strerror(errno);
       }
       g_started = true;
     }
 #endif

     fwrite(g_printbuf.ptr, sizeof(uint8_t), n, stdout);
     fflush(stdout);

     g_cumulative_delay_micros +=
         (1000 * wuffs_base__frame_config__duration(&fc)) /
         WUFFS_BASE__FLICKS_PER_MILLISECOND;

     // TODO: should a zero duration mean to show this frame forever?

     if (!wuffs_base__status__is_ok(&decode_frame_status)) {
       return wuffs_base__status__message(&decode_frame_status);
     }
   }

   if (g_first_play) {
     g_first_play = false;
     g_num_loops_remaining = wuffs_gif__decoder__num_animation_loops(&dec);
   }

   return NULL;
 }

 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\"";
   }
   TRY(read_stdin());
   while (true) {
     TRY(play());
     if (g_num_loops_remaining == 0) {
       continue;
     }
     g_num_loops_remaining--;
     if (g_num_loops_remaining == 0) {
       break;
     }
   }
   return NULL;
 }

 int  //
 main(int argc, char** argv) {
   const char* z = main1(argc, argv);
   if (z) {
     fprintf(stderr, "%s\n", z);
     return 1;
   }
   return 0;
 }
	// Copyright 2018 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.

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

	/*
	gifplayer prints an ASCII representation of the GIF image read from stdin. To
	play Eadweard Muybridge's iconic galloping horse animation, run:

	$CC gifplayer.c && ./a.out < ../../test/data/muybridge.gif; rm -f a.out

	for a C compiler $CC, such as clang or gcc.

	Add the -color flag to a.out to get 24 bit color ("true color") terminal output
	(in the UTF-8 format) instead of plain ASCII output. Not all terminal emulators
	support true color: https://gist.github.com/XVilka/8346728
	*/

	#include <errno.h>
	#include <stdbool.h>
	#include <stdint.h>
	#include <stdio.h>
	#include <stdlib.h>

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

	#if defined(__unix__) \|\| defined(__MACH__)

	#include <time.h>
	#include <unistd.h>
	#define WUFFS_EXAMPLE_USE_TIMERS

	bool g_started = false;
	struct timespec g_start_time = {0};

	int64_t //
	micros_since_start(struct timespec* now) {
	if (!g_started) {
	return 0;
	}
	int64_t nanos = (int64_t)(now->tv_sec - g_start_time.tv_sec) * 1000000000 +
	(int64_t)(now->tv_nsec - g_start_time.tv_nsec);
	if (nanos < 0) {
	return 0;
	}
	return nanos / 1000;
	}

	#else
	#warning "TODO: timers on non-POSIX systems"
	#endif

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

	// 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__LZW
	#define WUFFS_CONFIG__MODULE__GIF

	// 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"

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

	// Limit the input GIF image to (64 MiB - 1 byte) compressed and 4096 × 4096
	// pixels uncompressed. This is a limitation of this example program (which
	// uses the Wuffs standard library), not a limitation of Wuffs per se.
	//
	// We keep the whole input in memory, instead of one-pass stream processing,
	// because playing a looping animation requires re-winding the input.
	#ifndef SRC_BUFFER_ARRAY_SIZE
	#define SRC_BUFFER_ARRAY_SIZE (64 * 1024 * 1024)
	#endif
	#ifndef MAX_DIMENSION
	#define MAX_DIMENSION (4096)
	#endif

	uint8_t g_src_buffer_array[SRC_BUFFER_ARRAY_SIZE] = {0};
	size_t g_src_len = 0;

	uint8_t* g_curr_dst_buffer = NULL;
	uint8_t* g_prev_dst_buffer = NULL;
	size_t g_dst_len; // Length in bytes.

	wuffs_base__slice_u8 g_workbuf = {0};
	wuffs_base__slice_u8 g_printbuf = {0};

	bool g_first_play = true;
	uint32_t g_num_loops_remaining = 0;
	wuffs_base__image_config g_ic = {0};
	wuffs_base__pixel_buffer g_pb = {0};

	wuffs_base__flicks g_cumulative_delay_micros = 0;

	const char* //
	read_stdin() {
	while (g_src_len < SRC_BUFFER_ARRAY_SIZE) {
	size_t n = fread(g_src_buffer_array + g_src_len, sizeof(uint8_t),
	SRC_BUFFER_ARRAY_SIZE - g_src_len, stdin);
	g_src_len += n;
	if (feof(stdin)) {
	return NULL;
	} else if (ferror(stdin)) {
	return "read error";
	}
	}
	return "input is too large";
	}

	// ----

	struct {
	int remaining_argc;
	char** remaining_argv;

	bool color;
	bool quirk_honor_background_color;
	} 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, "c") \|\| !strcmp(arg, "color")) {
	g_flags.color = true;
	continue;
	}
	if (!strcmp(arg, "quirk_honor_background_color")) {
	g_flags.quirk_honor_background_color = true;
	continue;
	}

	return "main: unrecognized flag argument";
	}

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

	// ----

	// BYTES_PER_COLOR_PIXEL is long enough to contain "\x1B[38;2;255;255;255mABC"
	// plus a trailing NUL byte and a few bytes of slack. It starts with a true
	// color terminal escape code. ABC is three bytes for the UTF-8 representation
	// "\xE2\x96\x88" of "█", U+2588 FULL BLOCK.
	#define BYTES_PER_COLOR_PIXEL 32

	const char* g_reset_color = "\x1B[0m";

	void //
	restore_background(wuffs_base__pixel_buffer* pb,
	wuffs_base__rect_ie_u32 bounds,
	wuffs_base__color_u32_argb_premul background_color) {
	size_t width4 = (size_t)(wuffs_base__pixel_config__width(&pb->pixcfg)) * 4;
	size_t y;
	for (y = bounds.min_incl_y; y < bounds.max_excl_y; y++) {
	size_t x;
	uint8_t* d = g_curr_dst_buffer + (y * width4) + (bounds.min_incl_x * 4);
	for (x = bounds.min_incl_x; x < bounds.max_excl_x; x++) {
	wuffs_base__poke_u32le__no_bounds_check(d, background_color);
	d += sizeof(wuffs_base__color_u32_argb_premul);
	}
	}
	}

	size_t //
	print_ascii_art(wuffs_base__pixel_buffer* pb) {
	uint32_t width = wuffs_base__pixel_config__width(&pb->pixcfg);
	uint32_t height = wuffs_base__pixel_config__height(&pb->pixcfg);

	uint8_t* d = g_curr_dst_buffer;
	uint8_t* p = g_printbuf.ptr;
	*p++ = '\n';
	uint32_t y;
	for (y = 0; y < height; y++) {
	uint32_t x;
	for (x = 0; x < width; x++) {
	wuffs_base__color_u32_argb_premul c =
	wuffs_base__peek_u32le__no_bounds_check(d);
	d += sizeof(wuffs_base__color_u32_argb_premul);
	// Convert to grayscale via the formula
	// Y = (0.299 * R) + (0.587 * G) + (0.114 * B)
	// translated into fixed point arithmetic.
	uint32_t b = 0xFF & (c >> 0);
	uint32_t g = 0xFF & (c >> 8);
	uint32_t r = 0xFF & (c >> 16);
	uint32_t gray =
	((19595 * r) + (38470 * g) + (7471 * b) + (1 << 15)) >> 16;
	*p++ = "-:=+IOX@"[(gray & 0xFF) >> 5];
	}
	*p++ = '\n';
	}
	return p - g_printbuf.ptr;
	}

	size_t //
	print_color_art(wuffs_base__pixel_buffer* pb) {
	uint32_t width = wuffs_base__pixel_config__width(&pb->pixcfg);
	uint32_t height = wuffs_base__pixel_config__height(&pb->pixcfg);

	uint8_t* d = g_curr_dst_buffer;
	uint8_t* p = g_printbuf.ptr;
	*p++ = '\n';
	p += sprintf((char*)p, "%s", g_reset_color);
	uint32_t y;
	for (y = 0; y < height; y++) {
	uint32_t x;
	for (x = 0; x < width; x++) {
	wuffs_base__color_u32_argb_premul c =
	wuffs_base__peek_u32le__no_bounds_check(d);
	d += sizeof(wuffs_base__color_u32_argb_premul);
	int b = 0xFF & (c >> 0);
	int g = 0xFF & (c >> 8);
	int r = 0xFF & (c >> 16);
	// "\xE2\x96\x88" is U+2588 FULL BLOCK. Before that is a true color
	// terminal escape code.
	p += sprintf((char*)p, "\x1B[38;2;%d;%d;%dm\xE2\x96\x88", r, g, b);
	}
	*p++ = '\n';
	}
	p += sprintf((char*)p, "%s", g_reset_color);
	return p - g_printbuf.ptr;
	}

	// ----

	const char* //
	try_allocate(wuffs_gif__decoder* dec) {
	uint32_t width = wuffs_base__pixel_config__width(&g_ic.pixcfg);
	uint32_t height = wuffs_base__pixel_config__height(&g_ic.pixcfg);
	uint64_t num_pixels = ((uint64_t)width) * ((uint64_t)height);
	if (num_pixels > (SIZE_MAX / sizeof(wuffs_base__color_u32_argb_premul))) {
	return "could not allocate dst buffer";
	}

	g_dst_len = num_pixels * sizeof(wuffs_base__color_u32_argb_premul);
	g_curr_dst_buffer = (uint8_t*)calloc(g_dst_len, 1);
	if (!g_curr_dst_buffer) {
	return "could not allocate curr-dst buffer";
	}

	g_prev_dst_buffer = (uint8_t*)malloc(g_dst_len);
	if (!g_prev_dst_buffer) {
	return "could not allocate prev-dst buffer";
	}

	uint64_t workbuf_len_max_incl = wuffs_gif__decoder__workbuf_len(dec).max_incl;
	if (workbuf_len_max_incl > 0) {
	g_workbuf = wuffs_base__malloc_slice_u8(
	malloc, wuffs_gif__decoder__workbuf_len(dec).max_incl);
	if (!g_workbuf.ptr) {
	return "could not allocate work buffer";
	}
	} else {
	g_workbuf = wuffs_base__make_slice_u8(NULL, 0);
	}

	uint64_t plen = 1 + ((uint64_t)(width) + 1) * (uint64_t)(height);
	uint64_t bytes_per_print_pixel = g_flags.color ? BYTES_PER_COLOR_PIXEL : 1;
	if (plen <= ((uint64_t)SIZE_MAX) / bytes_per_print_pixel) {
	g_printbuf =
	wuffs_base__malloc_slice_u8(malloc, plen * bytes_per_print_pixel);
	}
	if (!g_printbuf.ptr) {
	return "could not allocate print buffer";
	}

	return NULL;
	}

	const char* //
	allocate(wuffs_gif__decoder* dec) {
	const char* status_msg = try_allocate(dec);
	if (status_msg) {
	free(g_printbuf.ptr);
	g_printbuf = wuffs_base__make_slice_u8(NULL, 0);
	free(g_workbuf.ptr);
	g_workbuf = wuffs_base__make_slice_u8(NULL, 0);
	free(g_prev_dst_buffer);
	g_prev_dst_buffer = NULL;
	free(g_curr_dst_buffer);
	g_curr_dst_buffer = NULL;
	g_dst_len = 0;
	}
	return status_msg;
	}

	const char* //
	play() {
	wuffs_gif__decoder dec;
	wuffs_base__status i_status =
	wuffs_gif__decoder__initialize(&dec, sizeof dec, WUFFS_VERSION, 0);
	if (!wuffs_base__status__is_ok(&i_status)) {
	return wuffs_base__status__message(&i_status);
	}

	if (g_flags.quirk_honor_background_color) {
	wuffs_gif__decoder__set_quirk_enabled(
	&dec, WUFFS_GIF__QUIRK_HONOR_BACKGROUND_COLOR, true);
	}

	wuffs_base__io_buffer src;
	src.data.ptr = &g_src_buffer_array[0];
	src.data.len = g_src_len;
	src.meta.wi = g_src_len;
	src.meta.ri = 0;
	src.meta.pos = 0;
	src.meta.closed = true;

	if (g_first_play) {
	wuffs_base__status dic_status =
	wuffs_gif__decoder__decode_image_config(&dec, &g_ic, &src);
	if (!wuffs_base__status__is_ok(&dic_status)) {
	return wuffs_base__status__message(&dic_status);
	}
	if (!wuffs_base__image_config__is_valid(&g_ic)) {
	return "invalid image configuration";
	}
	uint32_t width = wuffs_base__pixel_config__width(&g_ic.pixcfg);
	uint32_t height = wuffs_base__pixel_config__height(&g_ic.pixcfg);
	if ((width > MAX_DIMENSION) \|\| (height > MAX_DIMENSION)) {
	return "image dimensions are too large";
	}

	// Override the source's indexed pixel format to be non-indexed.
	wuffs_base__pixel_config__set(
	&g_ic.pixcfg, WUFFS_BASE__PIXEL_FORMAT__BGRA_PREMUL,
	WUFFS_BASE__PIXEL_SUBSAMPLING__NONE, width, height);

	const char* msg = allocate(&dec);
	if (msg) {
	return msg;
	}
	wuffs_base__status sfs0_status = wuffs_base__pixel_buffer__set_from_slice(
	&g_pb, &g_ic.pixcfg,
	wuffs_base__make_slice_u8(g_curr_dst_buffer, g_dst_len));
	if (!wuffs_base__status__is_ok(&sfs0_status)) {
	return wuffs_base__status__message(&sfs0_status);
	}
	}

	while (1) {
	wuffs_base__frame_config fc = {0};
	wuffs_base__status dfc_status =
	wuffs_gif__decoder__decode_frame_config(&dec, &fc, &src);
	if (!wuffs_base__status__is_ok(&dfc_status)) {
	if (dfc_status.repr == wuffs_base__note__end_of_data) {
	break;
	}
	return wuffs_base__status__message(&dfc_status);
	}

	if (wuffs_base__frame_config__index(&fc) == 0) {
	wuffs_base__color_u32_argb_premul background_color =
	wuffs_base__frame_config__background_color(&fc);
	size_t i;
	size_t n = g_dst_len / sizeof(wuffs_base__color_u32_argb_premul);
	uint8_t* p = g_curr_dst_buffer;
	for (i = 0; i < n; i++) {
	wuffs_base__poke_u32le__no_bounds_check(p, background_color);
	p += sizeof(wuffs_base__color_u32_argb_premul);
	}
	}

	switch (wuffs_base__frame_config__disposal(&fc)) {
	case WUFFS_BASE__ANIMATION_DISPOSAL__RESTORE_PREVIOUS: {
	memcpy(g_prev_dst_buffer, g_curr_dst_buffer, g_dst_len);
	break;
	}
	}

	wuffs_base__status decode_frame_status = wuffs_gif__decoder__decode_frame(
	&dec, &g_pb, &src,
	wuffs_base__frame_config__overwrite_instead_of_blend(&fc)
	? WUFFS_BASE__PIXEL_BLEND__SRC
	: WUFFS_BASE__PIXEL_BLEND__SRC_OVER,
	g_workbuf, NULL);
	if (decode_frame_status.repr == wuffs_base__note__end_of_data) {
	break;
	}

	size_t n = g_flags.color ? print_color_art(&g_pb) : print_ascii_art(&g_pb);

	switch (wuffs_base__frame_config__disposal(&fc)) {
	case WUFFS_BASE__ANIMATION_DISPOSAL__RESTORE_BACKGROUND: {
	restore_background(&g_pb, wuffs_base__frame_config__bounds(&fc),
	wuffs_base__frame_config__background_color(&fc));
	break;
	}
	case WUFFS_BASE__ANIMATION_DISPOSAL__RESTORE_PREVIOUS: {
	uint8_t* swap = g_curr_dst_buffer;
	g_curr_dst_buffer = g_prev_dst_buffer;
	g_prev_dst_buffer = swap;

	wuffs_base__status sfs1_status =
	wuffs_base__pixel_buffer__set_from_slice(
	&g_pb, &g_ic.pixcfg,
	wuffs_base__make_slice_u8(g_curr_dst_buffer, g_dst_len));
	if (!wuffs_base__status__is_ok(&sfs1_status)) {
	return wuffs_base__status__message(&sfs1_status);
	}
	break;
	}
	}

	#if defined(WUFFS_EXAMPLE_USE_TIMERS)
	if (g_started) {
	struct timespec now;
	if (clock_gettime(CLOCK_MONOTONIC, &now)) {
	return strerror(errno);
	}
	int64_t elapsed_micros = micros_since_start(&now);
	if (g_cumulative_delay_micros > elapsed_micros) {
	usleep(g_cumulative_delay_micros - elapsed_micros);
	}

	} else {
	if (clock_gettime(CLOCK_MONOTONIC, &g_start_time)) {
	return strerror(errno);
	}
	g_started = true;
	}
	#endif

	fwrite(g_printbuf.ptr, sizeof(uint8_t), n, stdout);
	fflush(stdout);

	g_cumulative_delay_micros +=
	(1000 * wuffs_base__frame_config__duration(&fc)) /
	WUFFS_BASE__FLICKS_PER_MILLISECOND;

	// TODO: should a zero duration mean to show this frame forever?

	if (!wuffs_base__status__is_ok(&decode_frame_status)) {
	return wuffs_base__status__message(&decode_frame_status);
	}
	}

	if (g_first_play) {
	g_first_play = false;
	g_num_loops_remaining = wuffs_gif__decoder__num_animation_loops(&dec);
	}

	return NULL;
	}

	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\"";
	}
	TRY(read_stdin());
	while (true) {
	TRY(play());
	if (g_num_loops_remaining == 0) {
	continue;
	}
	g_num_loops_remaining--;
	if (g_num_loops_remaining == 0) {
	break;
	}
	}
	return NULL;
	}

	int //
	main(int argc, char** argv) {
	const char* z = main1(argc, argv);
	if (z) {
	fprintf(stderr, "%s\n", z);
	return 1;
	}
	return 0;
	}