void updateEntry()
{
// Read file
MemChunk data;
data.importFile(filename);
// Read image
SImage image;
image.open(data, 0, "png");
image.convertPaletted(&palette);
// Convert image to entry gfx format
SIFormat* format = SIFormat::getFormat(gfx_format);
if (format)
{
MemChunk conv_data;
if (format->saveImage(image, conv_data, &palette))
{
// Update entry data
entry->importMemChunk(conv_data);
EntryOperations::setGfxOffsets(entry, offsets.x, offsets.y);
}
else
{
LOG_MESSAGE(1, "Unable to convert external png to %s", format->getName());
}
}
}
bool convertWritable(SImage& image, convert_options_t opt)
{
// Firstly, make image paletted
image.convertPaletted(opt.pal_target, opt.pal_current);
// Secondly, remove any alpha information
image.fillAlpha(255);
// Quick hack for COLORMAP size
// TODO: Remove me when a proper COLORMAP editor is implemented
if (image.getWidth() == 256 && image.getHeight() >= 32 && image.getHeight() <= 34)
return true;
// Check for fullscreen/autopage size
if (image.getWidth() == 320)
return true;
// And finally, find a suitable flat size and crop to that size
int width = 0;
int height = 0;
for (unsigned a = 1; a < n_valid_flat_sizes; a++)
{
// Ignore non-writable flat sizes
if (valid_flat_size[a][2] == 0)
continue;
// Check for exact match (no need to crop)
if (image.getWidth() == valid_flat_size[a][0] &&
image.getHeight() == valid_flat_size[a][1])
return true;
// If the flat will fit within this size, crop to the previous size
// (this works because flat sizes list is in size-order)
if (image.getWidth() <= (int)valid_flat_size[a][0] &&
image.getHeight() <= (int)valid_flat_size[a][1] &&
width > 0 && height > 0)
{
image.crop(0, 0, width, height);
return true;
}
// Save 'previous' valid size
width = valid_flat_size[a][0];
height = valid_flat_size[a][1];
}
return false;
}
/* EntryOperations::gfxConvert
* Converts the image [entry] to [target_format], using conversion
* options specified in [opt] and converting to [target_colformat]
* colour format if possible. Returns false if the conversion failed,
* true otherwise
*******************************************************************/
bool EntryOperations::gfxConvert(ArchiveEntry* entry, string target_format, SIFormat::convert_options_t opt, int target_colformat)
{
// Init variables
SImage image;
// Get target image format
SIFormat* fmt = SIFormat::getFormat(target_format);
if (fmt == SIFormat::unknownFormat())
return false;
// Check format and target colour type are compatible
if (target_colformat >= 0 && !fmt->canWriteType((SIType)target_colformat))
{
if (target_colformat == RGBA)
wxLogMessage("Format \"%s\" cannot be written as RGBA data", fmt->getName());
else if (target_colformat == PALMASK)
wxLogMessage("Format \"%s\" cannot be written as paletted data", fmt->getName());
return false;
}
// Load entry to image
Misc::loadImageFromEntry(&image, entry);
// Check if we can write the image to the target format
int writable = fmt->canWrite(image);
if (writable == SIFormat::NOTWRITABLE)
{
wxLogMessage("Entry \"%s\" could not be converted to target format \"%s\"", entry->getName(), fmt->getName());
return false;
}
else if (writable == SIFormat::CONVERTIBLE)
fmt->convertWritable(image, opt);
// Now we apply the target colour format (if any)
if (target_colformat == PALMASK)
image.convertPaletted(opt.pal_target, opt.pal_current);
else if (target_colformat == RGBA)
image.convertRGBA(opt.pal_current);
// Finally, write new image data back to the entry
fmt->saveImage(image, entry->getMCData(), opt.pal_target);
return true;
}
