void emu_file::close()
{
// close files and free memory
if (m__7zfile != nullptr)
_7z_file_close(m__7zfile);
m__7zfile = nullptr;
if (m_zipfile != nullptr)
zip_file_close(m_zipfile);
m_zipfile = nullptr;
if (m_file != nullptr)
core_fclose(m_file);
m_file = nullptr;
m__7zdata.clear();
m_zipdata.clear();
if (m_remove_on_close)
osd_rmfile(m_fullpath.c_str());
m_remove_on_close = false;
// reset our hashes and path as well
m_hashes.reset();
m_fullpath.clear();
}
void emu_file::close()
{
// close files and free memory
if (m__7zfile != NULL)
_7z_file_close(m__7zfile);
m__7zfile = NULL;
if (m_zipfile != NULL)
zip_file_close(m_zipfile);
m_zipfile = NULL;
if (m_file != NULL)
core_fclose(m_file);
m_file = NULL;
m__7zdata.reset();
m_zipdata.reset();
if (m_remove_on_close)
osd_rmfile(m_fullpath);
m_remove_on_close = false;
// reset our hashes and path as well
m_hashes.reset();
m_fullpath.reset();
}
static int rmdir_recursive(const char *dir_path)
{
osd_directory *dir;
const osd_directory_entry *ent;
osd_directory_entry *ent2;
char *newpath;
dir = osd_opendir(dir_path);
if (dir)
{
while((ent = osd_readdir(dir)) != NULL)
{
if (strcmp(ent->name, ".") && strcmp(ent->name, ".."))
{
newpath = (char*)malloc(strlen(dir_path) + 1 + strlen(ent->name) + 1);
if (!newpath)
return -1;
strcpy(newpath, dir_path);
strcat(newpath, PATH_SEPARATOR);
strcat(newpath, ent->name);
ent2 = osd_stat(newpath);
if (ent2)
{
if (ent2->type == ENTTYPE_DIR)
rmdir_recursive(newpath);
else
osd_rmfile(newpath);
free(ent2);
}
free(newpath);
}
}
osd_closedir(dir);
}
osd_rmdir(dir_path);
return 0;
}
void running_machine::handle_saveload()
{
UINT32 openflags = (m_saveload_schedule == SLS_LOAD) ? OPEN_FLAG_READ : (OPEN_FLAG_WRITE | OPEN_FLAG_CREATE | OPEN_FLAG_CREATE_PATHS);
const char *opnamed = (m_saveload_schedule == SLS_LOAD) ? "loaded" : "saved";
const char *opname = (m_saveload_schedule == SLS_LOAD) ? "load" : "save";
file_error filerr = FILERR_NONE;
/* if no name, bail */
if (m_saveload_pending_file.len() == 0)
goto cancel;
/* if there are anonymous timers, we can't save just yet, and we can't load yet either
because the timers might overwrite data we have loaded */
if (timer_count_anonymous(this) > 0)
{
/* if more than a second has passed, we're probably screwed */
if (attotime_sub(timer_get_time(this), m_saveload_schedule_time).seconds > 0)
{
popmessage("Unable to %s due to pending anonymous timers. See error.log for details.", opname);
goto cancel;
}
return;
}
/* open the file */
mame_file *file;
filerr = mame_fopen(m_saveload_searchpath, m_saveload_pending_file, openflags, &file);
if (filerr == FILERR_NONE)
{
astring fullname(mame_file_full_name(file));
/* read/write the save state */
state_save_error staterr = (m_saveload_schedule == SLS_LOAD) ? state_save_read_file(this, file) : state_save_write_file(this, file);
/* handle the result */
switch (staterr)
{
case STATERR_ILLEGAL_REGISTRATIONS:
popmessage("Error: Unable to %s state due to illegal registrations. See error.log for details.", opname);
break;
case STATERR_INVALID_HEADER:
popmessage("Error: Unable to %s state due to an invalid header. Make sure the save state is correct for this game.", opname);
break;
case STATERR_READ_ERROR:
popmessage("Error: Unable to %s state due to a read error (file is likely corrupt).", opname);
break;
case STATERR_WRITE_ERROR:
popmessage("Error: Unable to %s state due to a write error. Verify there is enough disk space.", opname);
break;
case STATERR_NONE:
if (!(m_game.flags & GAME_SUPPORTS_SAVE))
popmessage("State successfully %s.\nWarning: Save states are not officially supported for this game.", opnamed);
else
popmessage("State successfully %s.", opnamed);
break;
default:
popmessage("Error: Unknown error during state %s.", opnamed);
break;
}
/* close and perhaps delete the file */
mame_fclose(file);
if (staterr != STATERR_NONE && m_saveload_schedule == SLS_SAVE)
osd_rmfile(fullname);
}
else
popmessage("Error: Failed to open file for %s operation.", opname);
/* unschedule the operation */
cancel:
m_saveload_pending_file.reset();
m_saveload_searchpath = NULL;
m_saveload_schedule = SLS_NONE;
}
static int generate_png_diff(const summary_file *curfile, astring &destdir, const char *destname)
{
bitmap_argb32 bitmaps[MAX_COMPARES];
astring srcimgname;
astring dstfilename;
astring tempname;
bitmap_argb32 finalbitmap;
int width, height, maxwidth;
int bitmapcount = 0;
int listnum, bmnum;
core_file *file = NULL;
file_error filerr;
png_error pngerr;
int error = -1;
int starty;
/* generate the common source filename */
dstfilename.printf("%s" PATH_SEPARATOR "%s", destdir.c_str(), destname);
srcimgname.printf("snap" PATH_SEPARATOR "%s" PATH_SEPARATOR "final.png", curfile->name);
/* open and load all unique bitmaps */
for (listnum = 0; listnum < list_count; listnum++)
if (curfile->matchbitmap[listnum] == listnum)
{
tempname.printf("%s" PATH_SEPARATOR "%s", lists[listnum].dir, srcimgname.c_str());
/* open the source image */
filerr = core_fopen(tempname.c_str(), OPEN_FLAG_READ, &file);
if (filerr != FILERR_NONE)
goto error;
/* load the source image */
pngerr = png_read_bitmap(file, bitmaps[bitmapcount++]);
core_fclose(file);
if (pngerr != PNGERR_NONE)
goto error;
}
/* if there's only one unique bitmap, skip it */
if (bitmapcount <= 1)
goto error;
/* determine the size of the final bitmap */
height = width = 0;
maxwidth = bitmaps[0].width();
for (bmnum = 1; bmnum < bitmapcount; bmnum++)
{
int curwidth;
/* determine the maximal width */
maxwidth = MAX(maxwidth, bitmaps[bmnum].width());
curwidth = bitmaps[0].width() + BITMAP_SPACE + maxwidth + BITMAP_SPACE + maxwidth;
width = MAX(width, curwidth);
/* add to the height */
height += MAX(bitmaps[0].height(), bitmaps[bmnum].height());
if (bmnum != 1)
height += BITMAP_SPACE;
}
/* allocate the final bitmap */
finalbitmap.allocate(width, height);
/* now copy and compare each set of bitmaps */
starty = 0;
for (bmnum = 1; bmnum < bitmapcount; bmnum++)
{
bitmap_argb32 &bitmap1 = bitmaps[0];
bitmap_argb32 &bitmap2 = bitmaps[bmnum];
int curheight = MAX(bitmap1.height(), bitmap2.height());
int x, y;
/* iterate over rows in these bitmaps */
for (y = 0; y < curheight; y++)
{
UINT32 *src1 = (y < bitmap1.height()) ? &bitmap1.pix32(y) : NULL;
UINT32 *src2 = (y < bitmap2.height()) ? &bitmap2.pix32(y) : NULL;
UINT32 *dst1 = &finalbitmap.pix32(starty + y, 0);
UINT32 *dst2 = &finalbitmap.pix32(starty + y, bitmap1.width() + BITMAP_SPACE);
UINT32 *dstdiff = &finalbitmap.pix32(starty + y, bitmap1.width() + BITMAP_SPACE + maxwidth + BITMAP_SPACE);
/* now iterate over columns */
for (x = 0; x < maxwidth; x++)
{
int pix1 = -1, pix2 = -2;
if (src1 != NULL && x < bitmap1.width())
pix1 = dst1[x] = src1[x];
if (src2 != NULL && x < bitmap2.width())
pix2 = dst2[x] = src2[x];
dstdiff[x] = (pix1 != pix2) ? 0xffffffff : 0xff000000;
}
}
/* update the starting Y position */
starty += BITMAP_SPACE + MAX(bitmap1.height(), bitmap2.height());
}
/* write the final PNG */
filerr = core_fopen(dstfilename.c_str(), OPEN_FLAG_WRITE | OPEN_FLAG_CREATE, &file);
if (filerr != FILERR_NONE)
goto error;
pngerr = png_write_bitmap(file, NULL, finalbitmap, 0, NULL);
core_fclose(file);
if (pngerr != PNGERR_NONE)
goto error;
/* if we get here, we are error free */
error = 0;
error:
if (error)
osd_rmfile(dstfilename.c_str());
return error;
}
static int generate_png_diff(const summary_file *curfile, const astring *destdir, const char *destname)
{
bitmap_t *bitmaps[MAX_COMPARES] = { NULL };
astring *srcimgname = astring_alloc();
astring *dstfilename = astring_alloc();
astring *tempname = astring_alloc();
bitmap_t *finalbitmap = NULL;
int width, height, maxwidth;
int bitmapcount = 0;
int listnum, bmnum;
core_file *file = NULL;
file_error filerr;
png_error pngerr;
int error = -1;
int starty;
/* generate the common source filename */
astring_printf(dstfilename, "%s" PATH_SEPARATOR "%s", astring_c(destdir), destname);
astring_printf(srcimgname, "snap" PATH_SEPARATOR "%s" PATH_SEPARATOR "final.png", curfile->name);
/* open and load all unique bitmaps */
for (listnum = 0; listnum < list_count; listnum++)
if (curfile->matchbitmap[listnum] == listnum)
{
astring_printf(tempname, "%s" PATH_SEPARATOR "%s", lists[listnum].dir, astring_c(srcimgname));
/* open the source image */
filerr = core_fopen(astring_c(tempname), OPEN_FLAG_READ, &file);
if (filerr != FILERR_NONE)
goto error;
/* load the source image */
pngerr = png_read_bitmap(file, &bitmaps[bitmapcount++]);
core_fclose(file);
if (pngerr != PNGERR_NONE)
goto error;
}
/* if there's only one unique bitmap, skip it */
if (bitmapcount <= 1)
goto error;
/* determine the size of the final bitmap */
height = width = 0;
maxwidth = bitmaps[0]->width;
for (bmnum = 1; bmnum < bitmapcount; bmnum++)
{
int curwidth;
/* determine the maximal width */
maxwidth = MAX(maxwidth, bitmaps[bmnum]->width);
curwidth = bitmaps[0]->width + BITMAP_SPACE + maxwidth + BITMAP_SPACE + maxwidth;
width = MAX(width, curwidth);
/* add to the height */
height += MAX(bitmaps[0]->height, bitmaps[bmnum]->height);
if (bmnum != 1)
height += BITMAP_SPACE;
}
/* allocate the final bitmap */
finalbitmap = bitmap_alloc(width, height, BITMAP_FORMAT_ARGB32);
if (finalbitmap == NULL)
goto error;
/* now copy and compare each set of bitmaps */
starty = 0;
for (bmnum = 1; bmnum < bitmapcount; bmnum++)
{
bitmap_t *bitmap1 = bitmaps[0];
bitmap_t *bitmap2 = bitmaps[bmnum];
int curheight = MAX(bitmap1->height, bitmap2->height);
int x, y;
/* iterate over rows in these bitmaps */
for (y = 0; y < curheight; y++)
{
UINT32 *src1 = (y < bitmap1->height) ? BITMAP_ADDR32(bitmap1, y, 0) : NULL;
UINT32 *src2 = (y < bitmap2->height) ? BITMAP_ADDR32(bitmap2, y, 0) : NULL;
UINT32 *dst1 = BITMAP_ADDR32(finalbitmap, starty + y, 0);
UINT32 *dst2 = BITMAP_ADDR32(finalbitmap, starty + y, bitmap1->width + BITMAP_SPACE);
UINT32 *dstdiff = BITMAP_ADDR32(finalbitmap, starty + y, bitmap1->width + BITMAP_SPACE + maxwidth + BITMAP_SPACE);
/* now iterate over columns */
for (x = 0; x < maxwidth; x++)
{
int pix1 = -1, pix2 = -2;
if (src1 != NULL && x < bitmap1->width)
pix1 = dst1[x] = src1[x];
if (src2 != NULL && x < bitmap2->width)
pix2 = dst2[x] = src2[x];
dstdiff[x] = (pix1 != pix2) ? 0xffffffff : 0xff000000;
}
}
/* update the starting Y position */
starty += BITMAP_SPACE + MAX(bitmap1->height, bitmap2->height);
}
/* write the final PNG */
filerr = core_fopen(astring_c(dstfilename), OPEN_FLAG_WRITE | OPEN_FLAG_CREATE, &file);
if (filerr != FILERR_NONE)
goto error;
pngerr = png_write_bitmap(file, NULL, finalbitmap, 0, NULL);
core_fclose(file);
if (pngerr != PNGERR_NONE)
goto error;
/* if we get here, we are error free */
error = 0;
error:
if (finalbitmap != NULL)
bitmap_free(finalbitmap);
for (bmnum = 0; bmnum < bitmapcount; bmnum++)
if (bitmaps[bmnum] != NULL)
bitmap_free(bitmaps[bmnum]);
if (error)
osd_rmfile(astring_c(dstfilename));
astring_free(dstfilename);
astring_free(srcimgname);
astring_free(tempname);
return error;
}
static bool render_font_save_cached(render_font &font, const char *filename, UINT32 hash)
{
// attempt to open the file
core_file *file;
file_error filerr = core_fopen(filename, OPEN_FLAG_WRITE | OPEN_FLAG_CREATE, &file);
if (filerr != FILERR_NONE)
return true;
try
{
// determine the number of characters
int numchars = 0;
for (int chnum = 0; chnum < 65536; chnum++)
if (font.chars[chnum].width > 0)
numchars++;
// write the header
dynamic_buffer tempbuffer(65536);
UINT8 *dest = &tempbuffer[0];
*dest++ = 'f';
*dest++ = 'o';
*dest++ = 'n';
*dest++ = 't';
*dest++ = hash >> 24;
*dest++ = hash >> 16;
*dest++ = hash >> 8;
*dest++ = hash & 0xff;
*dest++ = font.height >> 8;
*dest++ = font.height & 0xff;
*dest++ = font.yoffs >> 8;
*dest++ = font.yoffs & 0xff;
*dest++ = numchars >> 24;
*dest++ = numchars >> 16;
*dest++ = numchars >> 8;
*dest++ = numchars & 0xff;
write_data(*file, tempbuffer, dest);
// write the empty table to the beginning of the file
dynamic_buffer chartable(numchars * CACHED_CHAR_SIZE + 1, 0);
write_data(*file, &chartable[0], &chartable[numchars * CACHED_CHAR_SIZE]);
// loop over all characters
int tableindex = 0;
for (int chnum = 0; chnum < 65536; chnum++)
{
render_font_char &ch = font.chars[chnum];
if (ch.width > 0)
{
// write out a bit-compressed bitmap if we have one
if (ch.bitmap != NULL)
{
// write the data to the tempbuffer
dest = tempbuffer;
UINT8 accum = 0;
UINT8 accbit = 7;
// bit-encode the character data
for (int y = 0; y < ch.bmheight; y++)
{
int desty = y + font.height + font.yoffs - ch.yoffs - ch.bmheight;
const UINT32 *src = (desty >= 0 && desty < font.height) ? &ch.bitmap->pix32(desty) : NULL;
for (int x = 0; x < ch.bmwidth; x++)
{
if (src != NULL && src[x] != 0)
accum |= 1 << accbit;
if (accbit-- == 0)
{
*dest++ = accum;
accum = 0;
accbit = 7;
}
}
}
// flush any extra
if (accbit != 7)
*dest++ = accum;
// write the data
write_data(*file, tempbuffer, dest);
// free the bitmap and texture
global_free(ch.bitmap);
ch.bitmap = NULL;
}
// compute the table entry
dest = &chartable[tableindex++ * CACHED_CHAR_SIZE];
*dest++ = chnum >> 8;
*dest++ = chnum & 0xff;
*dest++ = ch.width >> 8;
*dest++ = ch.width & 0xff;
*dest++ = ch.xoffs >> 8;
*dest++ = ch.xoffs & 0xff;
*dest++ = ch.yoffs >> 8;
*dest++ = ch.yoffs & 0xff;
*dest++ = ch.bmwidth >> 8;
*dest++ = ch.bmwidth & 0xff;
*dest++ = ch.bmheight >> 8;
*dest++ = ch.bmheight & 0xff;
}
}
// seek back to the beginning and rewrite the table
core_fseek(file, CACHED_HEADER_SIZE, SEEK_SET);
write_data(*file, &chartable[0], &chartable[numchars * CACHED_CHAR_SIZE]);
// all done
core_fclose(file);
return false;
}
catch (...)
{
core_fclose(file);
osd_rmfile(filename);
return true;
}
}
static int generate_png_diff(const astring& imgfile1, const astring& imgfile2, const astring& outfilename)
{
bitmap_argb32 bitmap1;
bitmap_argb32 bitmap2;
bitmap_argb32 finalbitmap;
int width, height, maxwidth;
core_file *file = NULL;
file_error filerr;
png_error pngerr;
int error = 100;
bool bitmaps_differ;
int x, y;
/* open the source image */
filerr = core_fopen(imgfile1, OPEN_FLAG_READ, &file);
if (filerr != FILERR_NONE)
{
printf("Could not open %s (%d)\n", imgfile1.cstr(), filerr);
goto error;
}
/* load the source image */
pngerr = png_read_bitmap(file, bitmap1);
core_fclose(file);
if (pngerr != PNGERR_NONE)
{
printf("Could not read %s (%d)\n", imgfile1.cstr(), pngerr);
goto error;
}
/* open the source image */
filerr = core_fopen(imgfile2, OPEN_FLAG_READ, &file);
if (filerr != FILERR_NONE)
{
printf("Could not open %s (%d)\n", imgfile2.cstr(), filerr);
goto error;
}
/* load the source image */
pngerr = png_read_bitmap(file, bitmap2);
core_fclose(file);
if (pngerr != PNGERR_NONE)
{
printf("Could not read %s (%d)\n", imgfile2.cstr(), pngerr);
goto error;
}
/* if the sizes are different, we differ; otherwise start off assuming we are the same */
bitmaps_differ = (bitmap2.width() != bitmap1.width() || bitmap2.height() != bitmap1.height());
/* compare scanline by scanline */
for (y = 0; y < bitmap2.height() && !bitmaps_differ; y++)
{
UINT32 *base = &bitmap1.pix32(y);
UINT32 *curr = &bitmap2.pix32(y);
/* scan the scanline */
for (x = 0; x < bitmap2.width(); x++)
if (*base++ != *curr++)
break;
bitmaps_differ = (x != bitmap2.width());
}
if (bitmaps_differ)
{
/* determine the size of the final bitmap */
height = width = 0;
{
/* determine the maximal width */
maxwidth = MAX(bitmap1.width(), bitmap2.width());
width = bitmap1.width() + BITMAP_SPACE + maxwidth + BITMAP_SPACE + maxwidth;
/* add to the height */
height += MAX(bitmap1.height(), bitmap2.height());
}
/* allocate the final bitmap */
finalbitmap.allocate(width, height);
/* now copy and compare each set of bitmaps */
int curheight = MAX(bitmap1.height(), bitmap2.height());
/* iterate over rows in these bitmaps */
for (y = 0; y < curheight; y++)
{
UINT32 *src1 = (y < bitmap1.height()) ? &bitmap1.pix32(y) : NULL;
UINT32 *src2 = (y < bitmap2.height()) ? &bitmap2.pix32(y) : NULL;
UINT32 *dst1 = &finalbitmap.pix32(y);
UINT32 *dst2 = &finalbitmap.pix32(y, bitmap1.width() + BITMAP_SPACE);
UINT32 *dstdiff = &finalbitmap.pix32(y, bitmap1.width() + BITMAP_SPACE + maxwidth + BITMAP_SPACE);
/* now iterate over columns */
for (x = 0; x < maxwidth; x++)
{
int pix1 = -1, pix2 = -2;
if (src1 != NULL && x < bitmap1.width())
pix1 = dst1[x] = src1[x];
if (src2 != NULL && x < bitmap2.width())
pix2 = dst2[x] = src2[x];
dstdiff[x] = (pix1 != pix2) ? 0xffffffff : 0xff000000;
}
}
/* write the final PNG */
filerr = core_fopen(outfilename, OPEN_FLAG_WRITE | OPEN_FLAG_CREATE, &file);
if (filerr != FILERR_NONE)
{
printf("Could not open %s (%d)\n", outfilename.cstr(), filerr);
goto error;
}
pngerr = png_write_bitmap(file, NULL, finalbitmap, 0, NULL);
core_fclose(file);
if (pngerr != PNGERR_NONE)
{
printf("Could not write %s (%d)\n", outfilename.cstr(), pngerr);
goto error;
}
}
/* if we get here, we are error free */
if (bitmaps_differ)
error = 1;
else
error = 0;
error:
if (error == -1)
osd_rmfile(outfilename);
return error;
}
