gecko-dev/cmd/xfe/mkanim.c

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C
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/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape Public License
* Version 1.0 (the "NPL"); you may not use this file except in
* compliance with the NPL. You may obtain a copy of the NPL at
* http://www.mozilla.org/NPL/
*
* Software distributed under the NPL is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
* for the specific language governing rights and limitations under the
* NPL.
*
* The Initial Developer of this code under the NPL is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All Rights
* Reserved.
*/
/**********************************************************************
mkanim.c
By Daniel Malmer
This code was mostly taken from mkicons.c.
Given a list of filenames, creates a datafile that is read in by the
browser at run-time. The images in the datafile will be used as the
custom animation.
Usage:
mkanim large-file1 large-file2... large-filen small-file1 small-file2...
small-filen
**********************************************************************/
/*
mkicons.c --- converting transparent GIFs to embeddable XImage data.
Created: Jamie Zawinski <jwz@netscape.com>, 17-Aug-95.
(Danger. Here be monsters.)
*/
#define MAX_ANIM_FRAMES 50
#ifdef sgi
#include <bstring.h>
#else
#include <string.h>
#endif
#ifdef _HPUX_SOURCE
typedef unsigned char uchar_t;
#endif
#include "if.h"
#include "prtypes.h"
#include <plevent.h>
#include <prtypes.h>
#include "libevent.h"
extern void append_to_output_file(char* data, int len);
/* =========================================================================
All this junk is just to get it to link.
=========================================================================
*/
void * FE_SetTimeout(TimeoutCallbackFunction func, void * closure,
uint32 msecs) { return 0; }
void FE_ClearTimeout(void *timer_id) {}
void XP_Trace(const char * format, ...) {}
void FE_ImageDelete(IL_Image *portableImage) {}
int32 NET_GetMemoryCacheSize(void) { return 1000000; }
int32 NET_GetMaxMemoryCacheSize(void) { return 1000000; }
void NET_FreeURLStruct(URL_Struct * URL_s) {}
int NET_InterruptWindow(MWContext * window_id) {return 0;}
URL_Struct *NET_CreateURLStruct(const char *url, NET_ReloadMethod reload) { return 0; }
History_entry * SHIST_GetCurrent(History * hist) { return 0; }
int NET_GetURL (URL_Struct * URL_s, FO_Present_Types output_format,
MWContext * context, Net_GetUrlExitFunc* exit_routine)
{ return -1; }
Bool LO_BlockedOnImage(MWContext *c, LO_ImageStruct *image) { return FALSE; }
Bool NET_IsURLInDiskCache(URL_Struct *URL_s) {return TRUE;}
XP_Bool NET_IsLocalFileURL(char *address) {return TRUE;}
NET_StreamClass * NET_StreamBuilder (FO_Present_Types format_out,
URL_Struct *anchor, MWContext *window_id)
{ return 0; }
Bool NET_AreThereActiveConnectionsForWindow(MWContext * window_id)
{ return FALSE; }
Bool NET_AreThereStoppableConnectionsForWindow(MWContext * window_id)
{ return FALSE; }
void LO_RefreshAnchors(MWContext *context) { }
void GH_UpdateGlobalHistory(URL_Struct * URL_s) { }
char * NET_EscapeHTML(const char * string) { return (char *)string; }
Bool LO_LocateNamedAnchor(MWContext *context, URL_Struct *url_struct,
int32 *xpos, int32 *ypos) { return FALSE; }
Bool LO_HasBGImage(MWContext *context) {return FALSE; }
void FE_UpdateStopState(MWContext *context) {}
void
FE_Alert (MWContext *context, const char *message) {}
void ET_RemoveWindowContext(MWContext *context, ETVoidPtrFunc fn,
void *data) { }
extern int il_first_write(NET_StreamClass *stream, const unsigned char *str, int32 len);
void fe_ReLayout (MWContext *context, NET_ReloadMethod force_reload) {}
char *XP_GetBuiltinString(int16 i);
char *
XP_GetString(int16 i)
{
return XP_GetBuiltinString(i);
}
Bool
NET_IsURLInMemCache(URL_Struct *URL_s)
{
return FALSE;
}
/* =========================================================================
Now it gets REALLY nasty.
=========================================================================
*/
struct image {
int width, height;
char *color_bits;
char *mono_bits;
char *mask_bits;
};
int total_images = 0;
struct image images[500] = { { 0, }, };
int total_colors;
IL_IRGB cmap[256];
char* current_file = NULL;
int num_frames_small = 0;
int width_small = 0;
int height_small = 0;
int num_frames_large = 0;
int width_large = 0;
int height_large = 0;
int in_anim = 0;
int inactive_icon_p = 0;
int anim_frames[100] = { 0, };
XP_Bool sgi_p = FALSE;
static unsigned char *bitrev = 0;
/*
* warn
*/
void
warn(char* msg)
{
fprintf(stderr, "Warning: %s: %s\n", current_file, msg);
}
/*
* error
*/
void
error(char* msg)
{
fprintf(stderr, "Error: %s: %s\n", current_file, msg);
exit(1);
}
/*
* init_reverse_bits
*/
static void
init_reverse_bits(void)
{
if(!bitrev)
{
int i, x, br;
bitrev = (unsigned char *)XP_ALLOC(256);
for(i=0; i<256; i++)
{
br = 0;
for(x=0; x<8; x++)
{
br = br<<1;
if(i&(1<<x))
br |= 1;
}
bitrev[i] = br;
}
}
}
typedef enum {INITIAL_STATE, LARGE_STATE, SMALL_STATE, ERROR_STATE} image_state;
/*
* image_size
* This routine is registered with the image library to be invoked
* when it has determined the size of the image that it is processing.
* Sets the size of the image, and allocates the appropriate memory.
*/
int
image_size (MWContext *context, IL_ImageStatus message,
IL_Image *il_image, void *data)
{
static image_state state = INITIAL_STATE;
switch ( state ) {
case INITIAL_STATE:
printf("First large frame is %s.\n", current_file);
printf("Size is %d by %d pixels.\n", il_image->width, il_image->height);
num_frames_large++;
width_large = il_image->width;
height_large = il_image->height;
state = LARGE_STATE;
break;
case LARGE_STATE:
if ( il_image->width == width_large &&
il_image->height == height_large ) {
if ( num_frames_large < MAX_ANIM_FRAMES ) {
num_frames_large++;
printf("Reading large frame %d...\n", num_frames_large);
} else {
warn("Ignoring. Too many frames for animation.");
}
} else {
printf("First small frame is %s.\n", current_file);
printf("Size is %d by %d pixels.\n", il_image->width, il_image->height);
num_frames_small++;
width_small = il_image->width;
height_small = il_image->height;
state = SMALL_STATE;
}
break;
case SMALL_STATE:
if ( il_image->width == width_small &&
il_image->height == height_small ) {
if ( num_frames_small < MAX_ANIM_FRAMES ) {
num_frames_small++;
printf("Reading small frame %d...\n", num_frames_small);
} else {
warn("Ignoring. Too many frames for animation.");
}
} else {
error("Bad size. Animation frames must have the same size.\n");
state = ERROR_STATE;
}
break;
case ERROR_STATE:
break;
default:
error("Unexpected error. Reached bad switch.\n");
break;
}
if (il_image->bits)
free (il_image->bits);
il_image->bits = malloc (il_image->widthBytes * il_image->height);
memset (il_image->bits, ~0, (il_image->widthBytes * il_image->height));
if (!il_image->mask && il_image->transparent)
{
int size = il_image->maskWidthBytes * il_image->height;
il_image->mask = malloc (size);
memset (il_image->mask, ~0, size);
}
return 0;
}
/*
* print_image
*/
void
print_image(IL_Image* il_image)
{
printf("---------------------------------------------\n");
printf("il_image->width = %d\n", il_image->width);
printf("il_image->height = %d\n", il_image->height);
printf("il_image->widthBytes = %d\n", il_image->widthBytes);
printf("il_image->maskWidthBytes = %d\n", il_image->maskWidthBytes);
printf("il_image->depth = %d\n", il_image->depth);
printf("il_image->bytesPerPixel = %d\n", il_image->bytesPerPixel);
printf("il_image->colors = %d\n", il_image->colors);
printf("il_image->unique_colors = %d\n", il_image->unique_colors);
printf("il_image->validHeight = %d\n", il_image->validHeight);
printf("il_image->lastValidHeight = %d\n", il_image->lastValidHeight);
printf("il_image->has_mask = %s\n", il_image->has_mask ?
"True" : "False");
printf("il_image->hasUniqueColormap = %s\n", il_image->hasUniqueColormap ?
"True" : "False");
}
/*
* get_color
*/
int
get_color(uchar_t r, uchar_t g, uchar_t b)
{
int i;
#ifdef DEBUG_username
printf("Trying to find %d %d %d... ", r, g, b);
#endif
for ( i = 0; i < total_colors; i++ ) {
if ( cmap[i].red == r &&
cmap[i].green == g &&
cmap[i].blue == b ) {
return i;
}
}
if ( total_colors > 64 ) {
error("Animations can contain no more than 64 colors.\n");
}
cmap[total_colors].red = r;
cmap[total_colors].green = g;
cmap[total_colors].blue = b;
total_colors++;
return (total_colors-1);
}
/*
* image_data
* This routine is registered with the image library. It is invoked
* when the image library has image data to be processed. The mono
* bits, mask bits and color bits are written to the output buffer.
*/
void
image_data (MWContext *context, IL_ImageStatus message, IL_Image *il_image,
void *data)
{
int row_parity;
unsigned char *s, *m, *scanline, *mask_scanline, *end;
#ifdef DEBUG_username
print_image(il_image);
#endif
if (message != ilComplete) abort ();
images[total_images].width = il_image->width;
images[total_images].height = il_image->height;
if (il_image->depth == 1)
images[total_images].mono_bits = il_image->bits;
else
images[total_images].color_bits = il_image->bits;
if (il_image->mask)
images[total_images].mask_bits = il_image->mask;
if (il_image->depth == 1)
return;
if (il_image->depth != 32) {
error("Color image depth not 32.\n");
}
/* Generate monochrome icon from color data. */
scanline = il_image->bits;
mask_scanline = il_image->mask;
end = scanline + (il_image->widthBytes * il_image->height);
row_parity = 0;
while (scanline < end)
{
unsigned char *scanline_end = scanline + (il_image->width * 4);
int luminance, pixel;
int bit = 0;
uchar_t byte = 0;
row_parity ^= 1;
for (m = mask_scanline, s = scanline; s < scanline_end; s += 4)
{
unsigned char r = s[3];
unsigned char g = s[2];
unsigned char b = s[1];
luminance = (0.299 * r) + (0.587 * g) + (0.114 * b);
pixel =
((luminance < 128)) ||
((r == 66) && (g == 154) && (b == 167)); /* Magic: blue */
byte |= pixel << bit++;
if ((bit == 8) || ((s + 4) >= scanline_end)) {
/* Handle transparent areas of the icon */
if (il_image->mask)
byte &= bitrev[*m++];
append_to_output_file((char*) &byte, 1);
bit = 0;
byte = 0;
}
}
scanline += il_image->widthBytes;
mask_scanline += il_image->maskWidthBytes;
}
/* Mask data */
if (il_image->mask)
{
scanline = il_image->mask;
end = scanline + (il_image->maskWidthBytes * il_image->height);
for (;scanline < end; scanline += il_image->maskWidthBytes)
{
unsigned char *scanline_end = scanline + ((il_image->width + 7) / 8);
for (s = scanline; s < scanline_end; s++)
{
append_to_output_file((char*) &(bitrev[*s]), 1);
}
}
}
else
{
append_to_output_file(0, (il_image->width+7)/8*(il_image->height));
}
/* Color icon */
scanline = il_image->bits;
end = scanline + (il_image->widthBytes * il_image->height);
for (;scanline < end; scanline += il_image->widthBytes)
{
unsigned char *scanline_end = scanline + (il_image->width * 4);
for (s = scanline; s < scanline_end; s += 4)
{
unsigned char r = s[3];
unsigned char g = s[2];
unsigned char b = s[1];
int j;
uchar_t byte;
j = get_color(r, g, b);
byte = (uchar_t) j;
append_to_output_file((char*) &byte, 1);
#ifdef DEBUG_username
for (j = 0; j < total_colors; j++)
if (r == cmap[j].red &&
g == cmap[j].green &&
b == cmap[j].blue)
{
byte = (uchar_t) j;
append_to_output_file((char*) &byte, 1);
goto DONE;
}
error("Error allocated colors.\n");
DONE:
;
#endif
}
}
if (il_image->bits) free (il_image->bits);
il_image->bits = 0;
if (il_image->mask) free (il_image->mask);
il_image->mask = 0;
}
/*
* set_title
* A no-op.
*/
void
set_title (MWContext *context, char *title)
{
}
/*
* do_file
* Process an image file.
*/
void
do_file (char *file)
{
static int counter = 0;
FILE *fp;
char *data;
int size;
NET_StreamClass *stream;
struct stat st;
char *s;
URL_Struct *url;
il_container *ic;
il_process *proc;
MWContext cx;
ContextFuncs fns;
IL_IRGB trans;
memset (&cx, 0, sizeof(cx));
memset (&fns, 0, sizeof(fns));
url = XP_NEW_ZAP (URL_Struct);
proc = XP_NEW_ZAP (il_process);
url->address = strdup("\000\000");
cx.funcs = &fns;
fns.ImageSize = image_size;
fns.ImageData = image_data;
fns.SetDocTitle = set_title;
{
/* make a container */
ic = XP_NEW_ZAP(il_container);
ic->hash = 0;
ic->urlhash = 0;
ic->cx = &cx;
ic->forced = 0;
ic->image = XP_NEW_ZAP(IL_Image);
ic->next = 0;
ic->ip = proc;
cx.imageProcess = proc;
ic->state = IC_START;
}
url->fe_data = ic;
ic->clients = XP_NEW_ZAP(il_client);
ic->clients->cx = &cx;
if ( stat (file, &st) ) {
perror(file);
exit(errno);
}
if ( !S_ISREG(st.st_mode) ) {
fprintf(stderr, "%s: Not a plain file.\n", file);
exit(1);
}
size = st.st_size;
data = (char *) malloc (size + 1);
fp = fopen (file, "r");
fread (data, 1, size, fp);
fclose (fp);
current_file = strdup(file);
s = strrchr (file, '.');
if (s) *s = 0;
s = strrchr (file, '/');
if (s)
s++;
else
s = file;
if (in_anim && strncmp (s, "Anim", 4))
/* once you've started anim frames, don't stop. */
abort ();
if ((!strcmp (s, "AnimSm00") || !strcmp (s, "AnimHuge00")) ||
((!strcmp (s, "AnimSm01") || !strcmp (s, "AnimHuge01")) &&
(!in_anim ||
anim_frames[in_anim-1] > 1)))
{
char *s2;
s2 = s - 2;
while (s2 > file && *s2 != '/')
s2--;
s[-1] = 0;
if (*s2 == '/')
s2++;
in_anim++;
}
if (in_anim)
{
if (strncmp (s, "Anim", 4)) abort ();
anim_frames[in_anim-1]++;
}
else
{
char *s2 = s;
while (*s2)
{
if (*s2 == '.') *s2 = '_';
s2++;
}
}
trans.red = trans.green = trans.blue = 0xC0;
cx.colorSpace = NULL;
IL_EnableTrueColor (&cx, 32,
#if defined(IS_LITTLE_ENDIAN)
24, 16, 8,
#elif defined(IS_BIG_ENDIAN)
0, 8, 16,
#else
ERROR! Endianness unknown.
#endif
8, 8, 8,
&trans, FALSE);
ic->cs = cx.colorSpace;
/*IL_SetPreferences (&cx, FALSE, ilClosestColor);*/
IL_SetPreferences (&cx, FALSE, ilDither);/* XXXM12N Replace with
IL_SetDisplayMode. */
url->address[0] = counter++;
stream = IL_NewStream (FO_PRESENT,
(strstr (current_file, ".gif") ? (void *) IL_GIF :
strstr (current_file, ".jpg") ? (void *) IL_JPEG :
strstr (current_file, ".jpeg") ? (void *) IL_JPEG :
strstr (current_file, ".xbm") ? (void *) IL_XBM :
(void *) IL_GIF),
url, &cx);
if ( stream->put_block (stream, data, size) < 0 ) {
error("Couldn't decode file.\n");
}
stream->complete (stream);
free(current_file);
free (data);
total_images++;
}
uchar_t* output_buf = NULL;
int output_max_len = 0;
int output_len = 0;
/*
* CHUNKSIZE should be 1024 or something, but make
* it small to make sure it works.
*/
#define CHUNKSIZE 64
/*
* append_to_output_file
* Append the given data to the output buffer. If the resulting data
* is too large for the currently allocated output buffer, first allocate
* additional space.
*/
void
append_to_output_file(char* data, int len)
{
while ( output_buf == NULL || output_len + len >= output_max_len ) {
output_max_len+= CHUNKSIZE;
output_buf = (char*) realloc(output_buf, output_max_len);
}
if ( data ) {
memcpy(output_buf+output_len, data, len);
} else {
memset(output_buf+output_len, 0xff, len);
}
output_len+= len;
}
#define ANIMATION_FILENAME "animation.dat"
/*
* usage
*/
void
usage(char* progname)
{
fprintf(stderr, "Usage: %s large-animation-files small-animation-files\n",
progname);
}
/*
* main
* Process each file given on the command line.
*/
int
main (int argc, char* argv[])
{
int i;
FILE* anim_file;
init_reverse_bits();
if ( argc < 2 ) {
usage(argv[0]);
exit(1);
}
for (i = 1; i < argc; i++) {
char *filename = argv[i];
inactive_icon_p = (strstr(filename, ".i.gif") != NULL);
do_file (filename);
}
if ( (anim_file = fopen(ANIMATION_FILENAME, "w")) == NULL ) {
perror(ANIMATION_FILENAME);
exit(errno);
}
fprintf(anim_file, "%d %d %d\n", num_frames_large, width_large, height_large);
fprintf(anim_file, "%d %d %d\n", num_frames_small, width_small, height_small);
fprintf(anim_file, "%d\n", total_colors);
for ( i = 0; i < total_colors; i++ ) {
fprintf(anim_file, "%x %x %x\n", cmap[i].red * 257,
cmap[i].green * 257,
cmap[i].blue * 257);
}
if ( output_buf == NULL ) {
error("No image data to write.\n");
}
if ( fwrite(output_buf, sizeof(uchar_t), output_len, anim_file) !=
output_len) {
perror(ANIMATION_FILENAME);
exit(errno);
}
if ( fclose(anim_file) != 0 ) {
perror(ANIMATION_FILENAME);
exit(errno);
}
printf("Wrote %d large frames, %d small frames.\n", num_frames_large,
num_frames_small);
printf("%d colors\n", total_colors);
fprintf(stderr, "Successfully wrote '%s'\n", ANIMATION_FILENAME);
return 0;
}