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gif_load

This is an ANSI C compatible animated GIF loader in a single header file of less than 300 lines of code (less than 200 without empty lines and comments). It defines 1 new struct and 1 new enum, and requires 1 function call to load a GIF. 'ANSI C compatible' means that it builds fine with -pedantic -ansi compiler flags but includes stdint.h which is unavailable prior to C99.

gif_load is free and unencumbered software released into the public domain, blah blah. See the header file for details.

There are no strict dependencies on the standard C library. The only external function used by default is realloc() (both for freeing and allocation), but it`s possible to override it by defining a macro called GIF_MGET(m,s,a,c) prior to including the header; m stands for a uint8_t*-typed pointer to the memory block being allocated or freed, s is the target block size, typed unsigned long, a is the value of the fifth parameter passed to GIF_Load() (mainly used to hold a pointer to some user-defined structure if need be; see below), typed void*, and c equals 0 on freeing and 1 on allocation. For example, GIF_MGET might be defined as follows if malloc() / free() pair is to be used instead of realloc():

#include <stdlib.h>
#define GIF_MGET(m,s,a,c) if (c) m = (uint8_t*)malloc(s); else free(m);
#include "gif_load.h"

Loading GIFs immediately from disk is not supported: target files must be read or otherwise mapped into RAM by the caller.

The main function that does the actual loading is called GIF_Load(). It requires a callback function to create the animation structure of any user-defined format. This function, further referred to as the 'frame writer callback', will be executed once every frame.

Aditionally, the main function accepts a second callback used to process GIF application-specific extensions, i.e. metadata; in the vast majority of GIFs no such extensions are present, so this callback is optional.

Both frame writer callback and metadata callback need 2 parameters:

  1. callback-specific data
  2. pointer to a struct GIF_WHDR that encapsulates GIF frame information (callbacks may alter any fields at will, as the structure passed to them is a proxy that is discarded after every call):
  • GIF_WHDR::xdim - global GIF width, always constant across frames (further referred to as 'ACAF'); [0; 65535]
  • GIF_WHDR::ydim - global GIF height, ACAF; [0; 65535]
  • GIF_WHDR::clrs - number of colors in the current palette (local palettes are not that rare so it may vary across frames, further referred to as 'MVAF'); {2; 4; 8; 16; 32; 64; 128; 256}
  • GIF_WHDR::bkgd - 0-based background color index for the current palette, ACAF (sic ACAF, as this index is set globally)
  • GIF_WHDR::tran - 0-based transparent color index for the current palette (or −1 when transparency is disabled), MVAF
  • GIF_WHDR::intr - boolean flag indicating whether the current frame is interlaced; deinterlacing it is up to the caller (see the examples below), MVAF
  • GIF_WHDR::mode - next frame (sic next, not current) blending mode, MVAF: [GIF_NONE:] no blending, mainly used in single-frame GIFs, functionally equivalent to GIF_CURR; [GIF_CURR:] leave the current image state as is; [GIF_BKGD:] restore the background color (or transparency, in case GIF_WHDR::tran ≠ −1) in the boundaries of the current frame; [GIF_PREV:] restore the last image whose mode differed from this one, functionally equivalent to GIF_BKGD when assigned to the first frame in a GIF; N.B.: if right before a GIF_PREV frame came a GIF_BKGD one, the state to be restored is before a certain part of the resulting image was filled with the background color, not after!
  • GIF_WHDR::frxd - current frame width, MVAF; [0; 65535]
  • GIF_WHDR::fryd - current frame height, MVAF; [0; 65535]
  • GIF_WHDR::frxo - current frame horizontal offset, MVAF; [0; 65535]
  • GIF_WHDR::fryo - current frame vertical offset, MVAF; [0; 65535]
  • GIF_WHDR::time - next frame delay in GIF time units (1 unit = 10 msec), MVAF; negative values are possible here, they mean that the frame requires user input to advance, and the actual delay equals −(time + 1) GIF time units: zero delay + user input = wait for input indefinitely, nonzero delay + user input = wait for either input or timeout (whichever comes first); N.B.: user input requests can be safely ignored, disregarding the GIF standard
  • GIF_WHDR::ifrm - 0-based index of the current frame, always varies across frames (further referred to as 'AVAF')
  • GIF_WHDR::nfrm - total frame count, negative if the GIF data supplied is incomplete, ACAF during a single GIF_Load() call but may vary across GIF_Load() calls
  • GIF_WHDR::bptr - [frame writer:] pixel indices for the current frame, ACAF (it is only the pointer address that is constant; the pixel indices stored inside = MVAF); [metadata callback:] app metadata header (8+3 bytes) followed by a GIF chunk (1 byte designating length L, then L bytes of metadata, and so forth; L = 0 means end of chunk), AVAF
  • GIF_WHDR::cpal - the current palette containing 3 uint8_t values for each of the colors: R for the red channel, G for green and B for blue; this pointer is guaranteed to be the same across frames if and only if the global palette is used for those frames (local palettes are strictly frame-specific, even when they contain the same number of identical colors in identical order), MVAF

Neither of the two callbacks needs to return a value, thus having void for a return type.

GIF_Load(), in its turn, needs 6 parameters:

  1. a pointer to GIF data in RAM
  2. GIF data size; may be larger than the actual data if the GIF has a proper ending mark
  3. a pointer to the frame writer callback
  4. a pointer to the metadata callback; may be left empty
  5. callback-specific data
  6. number of frames to skip before executing the callback; useful to resume loading the partial file

Partial GIFs are also supported, but only at a granularity of one frame. For example, if the file ends in the middle of the fifth frame, no attempt would be made to recover the upper half, and the resulting animation will only contain 4 frames. When more data is available the loader might be called again, this time with the skip parameter equalling 4 to skip those 4 frames. Note that the metadata callback is not affected by skip and gets called again every time the frames between which the metadata was written are skipped.

The return value of the function above, if positive, equals the total number of frames in the animation and indicates that the GIF data stream ended with a proper termination mark. Negative return value is the number of frames loaded per current call multiplied by −1, suggesting that the GIF data stream being decoded is still incomplete. Zero, in its turn, means that the call could not decode any more frames.

gif_load is endian-aware. If the target machine can be big-endian the user has to determine that manually and add #define GIF_BIGE 1 to the source prior to the header being included if that`s the case, or otherwise define the endianness to be used (0 = little, 1 = big), e.g. by declaring a helper function and setting GIF_BIGE to expand into its call, or by passing it as a compiler parameter (e.g. -DGIF_BIGE=1 for GCC / Clang). Although GIF data is little-endian, all multibyte integers passed to the user through long-typed fields of GIF_WHDR have correct byte order regardless of the endianness of the target machine, provided that GIF_BIGE is set correctly. Most other data, e.g. pixel indices of a frame, consists of single bytes and thus does not require endianness correction. One notable exception is GIF application metadata which is passed as the raw chunk of bytes (for details see the description of GIF_WHDR::bptr provided above), and then it`s the callback`s job to parse it and decide whether to decode and how to do that.

There is a possibility to build gif_load as a shared library. GIF_EXTR is a convenience macro to be defined so that the GIF_Load() function gets an entry in the export table of the library. See the Python example for further information.

C / C++ usage example

Here is an example of how to use GIF_Load() to transform an animated GIF file into a 32-bit uncompressed TGA. For the sake of simplicity all frames are concatenated one below the other and no attempt is made to keep all of them if the resulting height exceeds the TGA height limit which is 0xFFFF.

#include "gif_load.h"
#include <fcntl.h>
#ifdef _MSC_VER
    /** MSVC is definitely not my favourite compiler...   >_<   **/
    #pragma warning(disable:4996)
    #include <io.h>
#else
    #include <unistd.h>
#endif
#ifndef O_BINARY
    #define O_BINARY 0
#endif

#pragma pack(push, 1)
typedef struct {
    void *data, *pict, *prev;
    unsigned long size, last;
    int uuid;
} STAT; /** #pragma avoids -Wpadded on 64-bit machines **/
#pragma pack(pop)

void Frame(void*, struct GIF_WHDR*); /** keeps -Wmissing-prototypes happy **/
void Frame(void *data, struct GIF_WHDR *whdr) {
    uint32_t *pict, *prev, x, y, yoff, iter, ifin, dsrc, ddst;
    uint8_t head[18] = {0};
    STAT *stat = (STAT*)data;

    #define BGRA(i) ((whdr->bptr[i] == whdr->tran)? 0 : \
          ((uint32_t)(whdr->cpal[whdr->bptr[i]].R << ((GIF_BIGE)? 8 : 16)) \
         | (uint32_t)(whdr->cpal[whdr->bptr[i]].G << ((GIF_BIGE)? 16 : 8)) \
         | (uint32_t)(whdr->cpal[whdr->bptr[i]].B << ((GIF_BIGE)? 24 : 0)) \
         | ((GIF_BIGE)? 0xFF : 0xFF000000)))
    if (!whdr->ifrm) {
        /** TGA doesn`t support heights over 0xFFFF, so we have to trim: **/
        whdr->nfrm = ((whdr->nfrm < 0)? -whdr->nfrm : whdr->nfrm) * whdr->ydim;
        whdr->nfrm = (whdr->nfrm < 0xFFFF)? whdr->nfrm : 0xFFFF;
        /** this is the very first frame, so we must write the header **/
        head[ 2] = 2;
        head[12] = (uint8_t)(whdr->xdim     );
        head[13] = (uint8_t)(whdr->xdim >> 8);
        head[14] = (uint8_t)(whdr->nfrm     );
        head[15] = (uint8_t)(whdr->nfrm >> 8);
        head[16] = 32;   /** 32 bits depth **/
        head[17] = 0x20; /** top-down flag **/
        write(stat->uuid, head, 18UL);
        ddst = (uint32_t)(whdr->xdim * whdr->ydim);
        stat->pict = calloc(sizeof(uint32_t), ddst);
        stat->prev = calloc(sizeof(uint32_t), ddst);
    }
    /** [TODO:] the frame is assumed to be inside global bounds,
                however it might exceed them in some GIFs; fix me. **/
    pict = (uint32_t*)stat->pict;
    ddst = (uint32_t)(whdr->xdim * whdr->fryo + whdr->frxo);
    ifin = (!(iter = (whdr->intr)? 0 : 4))? 4 : 5; /** interlacing support **/
    for (dsrc = (uint32_t)-1; iter < ifin; iter++)
        for (yoff = 16U >> ((iter > 1)? iter : 1), y = (8 >> iter) & 7;
             y < (uint32_t)whdr->fryd; y += yoff)
            for (x = 0; x < (uint32_t)whdr->frxd; x++)
                if (whdr->tran != (long)whdr->bptr[++dsrc])
                    pict[(uint32_t)whdr->xdim * y + x + ddst] = BGRA(dsrc);
    write(stat->uuid, pict, sizeof(uint32_t) * (uint32_t)whdr->xdim
                                             * (uint32_t)whdr->ydim);
    if ((whdr->mode == GIF_PREV) && !stat->last) {
        whdr->frxd = whdr->xdim;
        whdr->fryd = whdr->ydim;
        whdr->mode = GIF_BKGD;
        ddst = 0;
    }
    else {
        stat->last = (whdr->mode == GIF_PREV)?
                      stat->last : (unsigned long)(whdr->ifrm + 1);
        pict = (uint32_t*)((whdr->mode == GIF_PREV)? stat->pict : stat->prev);
        prev = (uint32_t*)((whdr->mode == GIF_PREV)? stat->prev : stat->pict);
        for (x = (uint32_t)(whdr->xdim * whdr->ydim); --x;
             pict[x - 1] = prev[x - 1]);
    }
    if (whdr->mode == GIF_BKGD) /** cutting a hole for the next frame **/
        for (whdr->bptr[0] = (uint8_t)((whdr->tran >= 0)?
                                        whdr->tran : whdr->bkgd), y = 0,
             pict = (uint32_t*)stat->pict; y < (uint32_t)whdr->fryd; y++)
            for (x = 0; x < (uint32_t)whdr->frxd; x++)
                pict[(uint32_t)whdr->xdim * y + x + ddst] = BGRA(0);
    #undef BGRA
}

int main(int argc, char *argv[]) {
    STAT stat = {0};

    if (argc < 3)
        write(1, "arguments: <in>.gif <out>.tga (1 or more times)\n", 48UL);
    for (stat.uuid = 2, argc -= (~argc & 1); argc >= 3; argc -= 2) {
        if ((stat.uuid = open(argv[argc - 2], O_RDONLY | O_BINARY)) <= 0)
            return 1;
        stat.size = (unsigned long)lseek(stat.uuid, 0UL, 2 /** SEEK_END **/);
        lseek(stat.uuid, 0UL, 0 /** SEEK_SET **/);
        read(stat.uuid, stat.data = realloc(0, stat.size), stat.size);
        close(stat.uuid);
        unlink(argv[argc - 1]);
        stat.uuid = open(argv[argc - 1], O_CREAT | O_WRONLY | O_BINARY, 0644);
        if (stat.uuid > 0) {
            GIF_Load(stat.data, (long)stat.size, Frame, 0, (void*)&stat, 0L);
            stat.pict = realloc(stat.pict, 0L);
            stat.prev = realloc(stat.prev, 0L);
            close(stat.uuid);
            stat.uuid = 0;
        }
        stat.data = realloc(stat.data, 0L);
    }
    return stat.uuid;
}

Python usage example

Here is an example of how to use GIF_Load() from Python 2.x or 3.x.

N.B.: The implementation shown here complies to the GIF standard much better than the one PIL has (at least as of 2018-02-07): for example it preserves transparency and supports local frame palettes.

First of all, gif_load.h has to be built as a shared library:

Linux / macOS:

# Only works when executed from the directory where gif_load.h resides
rm gif_load.so 2>/dev/null
uname -s | grep -q ^Darwin && CC=clang || CC=gcc
$CC -pedantic -ansi -s -DGIF_EXTR=extern -xc gif_load.h -o gif_load.so \
    -shared -fPIC -Wl,--version-script=<(echo "{global:GIF_Load;local:*;};")

Windows:

rem Only works when executed from the directory where gif_load.h resides
del gif_load.exp gif_load.lib gif_load.dll
cl /LD /Zl /DGIF_EXTR=__declspec(dllexport) /Tc gif_load.h msvcrt.lib /Fegif_load.dll

Then the loading function can be called using CTypes (Python 2 reference, Python 3 reference):

from PIL import Image

def GIF_Load(file):
    from platform import system
    from ctypes import string_at, Structure, c_long as cl, c_ubyte, \
                       py_object, pointer, POINTER as PT, CFUNCTYPE, CDLL
    class GIF_WHDR(Structure): _fields_ = \
       [("xdim", cl), ("ydim", cl), ("clrs", cl), ("bkgd", cl),
        ("tran", cl), ("intr", cl), ("mode", cl), ("frxd", cl), ("fryd", cl),
        ("frxo", cl), ("fryo", cl), ("time", cl), ("ifrm", cl), ("nfrm", cl),
        ("bptr", PT(c_ubyte)), ("cpal", PT(c_ubyte))]
    def intr(y, x, w, base, tran): base.paste(tran.crop((0, y, x, y + 1)), w)
    def skew(i, r): return r >> ((7 - (i & 2)) >> (1 + (i & 1)))
    def fill(w, d, p):
        retn = Image.new("L", d, w.bkgd) if (w.tran < 0) else \
               Image.new("RGBA", d)
        if (w.tran < 0):
            retn.putpalette(p)
        return retn
    def WriteFunc(d, w):
        cpal = string_at(w[0].cpal, w[0].clrs * 3)
        list = d.contents.value[0]
        if (len(list) == 0):
            list.append(Image.new("RGBA", (w[0].xdim, w[0].ydim)))
        tail = len(list) - 1
        base = Image.frombytes("L", (w[0].frxd, w[0].fryd),
                               string_at(w[0].bptr, w[0].frxd * w[0].fryd))
        if (w[0].intr != 0):
            tran = base.copy()
            [intr(skew(y, y) + (skew(y, w[0].fryd - 1) + 1, 0)[(y & 7) == 0],
                  w[0].frxd, (0, y), base, tran) for y in range(w[0].fryd)]
        tran = Image.eval(base, lambda indx: (255, 0)[indx == w[0].tran])
        base.putpalette(cpal)
        list[tail].paste(base, (w[0].frxo, w[0].fryo), tran)
        list[tail].info = {"delay" : w[0].time}
        if (w[0].ifrm != (w[0].nfrm - 1)):
            trgt = (tail, d.contents.value[1])[w[0].mode == 3]
            list.append(list[trgt].copy() if (trgt >= 0) else
                        fill(w[0], (w[0].xdim, w[0].ydim), cpal))
            if (w[0].mode != 3):
                d.contents.value[1] = w[0].ifrm
            if (w[0].mode == 2):
                list[tail + 1].paste(fill(w[0], (w[0].frxd, w[0].fryd), cpal),
                                                (w[0].frxo, w[0].fryo))
    try: file = open(file, "rb")
    except IOError: return []
    file.seek(0, 2)
    size = file.tell()
    file.seek(0, 0)
    list = [[], -1]
    CDLL(("%s.so", "%s.dll")[system() == "Windows"] % "./gif_load"). \
    GIF_Load(file.read(), size,
             CFUNCTYPE(None, PT(py_object), PT(GIF_WHDR))(WriteFunc),
             None, pointer(py_object(list)), 0)
    file.close()
    return list[0]

def GIF_Save(file, fext):
    list = GIF_Load("%s.gif" % file)
    [pict.save("%s_f%d.%s" % (file, indx, fext))
     for (indx, pict) in enumerate(list)]

GIF_Save("insert_gif_name_here_without_extension", "png")