int main(int argc, const char* argv[])
{
if(argc != 2)
{
fprintf(stderr, "Usage: darktable-rs-identify <file>\n");
return 2;
}
char *camfile = find_cameras_xml(argv[0]);
if (!camfile)
{
//fprintf(stderr, "ERROR: Couldn't find cameras.xml\n");
return 2;
}
//fprintf(stderr, "Using cameras.xml from '%s'\n", camfile);
try
{
std::unique_ptr<CameraMetaData> meta(new CameraMetaData(camfile));
if(!meta.get())
{
fprintf(stderr, "ERROR: Couldn't get a CameraMetaData instance\n");
return 2;
}
#ifdef __AFL_HAVE_MANUAL_CONTROL
__AFL_INIT();
#endif
FileReader f((char *) argv[1]);
std::unique_ptr<FileMap> m(f.readFile());
RawParser t(m.get());
std::unique_ptr<RawDecoder> d(t.getDecoder(meta.get()));
if(!d.get())
{
fprintf(stderr, "ERROR: Couldn't get a RawDecoder instance\n");
return 2;
}
d->applyCrop = false;
d->failOnUnknown = true;
RawImage r = d->mRaw;
d->decodeMetaData(meta.get());
fprintf(stdout, "make: %s\n", r->metadata.make.c_str());
fprintf(stdout, "model: %s\n", r->metadata.model.c_str());
fprintf(stdout, "canonical_make: %s\n", r->metadata.canonical_make.c_str());
fprintf(stdout, "canonical_model: %s\n", r->metadata.canonical_model.c_str());
fprintf(stdout, "canonical_alias: %s\n", r->metadata.canonical_alias.c_str());
d->checkSupport(meta.get());
d->decodeRaw();
d->decodeMetaData(meta.get());
r = d->mRaw;
for (uint32 i=0; i<r->errors.size(); i++)
fprintf(stderr, "WARNING: [rawspeed] %s\n", r->errors[i]);
fprintf(stdout, "blackLevel: %d\n", r->blackLevel);
fprintf(stdout, "whitePoint: %d\n", r->whitePoint);
fprintf(stdout, "blackLevelSeparate: %d %d %d %d\n",
r->blackLevelSeparate[0], r->blackLevelSeparate[1],
r->blackLevelSeparate[2], r->blackLevelSeparate[3]);
fprintf(stdout, "wbCoeffs: %f %f %f %f\n",
r->metadata.wbCoeffs[0], r->metadata.wbCoeffs[1],
r->metadata.wbCoeffs[2], r->metadata.wbCoeffs[3]);
fprintf(stdout, "isCFA: %d\n", r->isCFA);
uint32 filters = r->cfa.getDcrawFilter();
fprintf(stdout, "filters: %d (0x%x)\n", filters, filters);
uint32 bpp = r->getBpp();
fprintf(stdout, "bpp: %d\n", bpp);
uint32 cpp = r->getCpp();
fprintf(stdout, "cpp: %d\n", cpp);
fprintf(stdout, "dataType: %d\n", r->getDataType());
// dimensions of uncropped image
iPoint2D dimUncropped = r->getUncroppedDim();
fprintf(stdout, "dimUncropped: %dx%d\n", dimUncropped.x, dimUncropped.y);
// dimensions of cropped image
iPoint2D dimCropped = r->dim;
fprintf(stdout, "dimCropped: %dx%d\n", dimCropped.x, dimCropped.y);
// crop - Top,Left corner
iPoint2D cropTL = r->getCropOffset();
fprintf(stdout, "cropOffset: %dx%d\n", cropTL.x, cropTL.y);
fprintf(stdout, "fuji_rotation_pos: %d\n", r->metadata.fujiRotationPos);
fprintf(stdout, "pixel_aspect_ratio: %f\n", r->metadata.pixelAspectRatio);
double sum = 0.0f;
for(uint32 row = 0; row < ((uint32) dimUncropped.y); row++)
{
uchar8 *data = r->getDataUncropped(0, row);
for(uint32 byte = 0; byte < ((uint32) dimUncropped.x*bpp) ; byte++)
sum += (double) data[byte];
}
fprintf(stdout, "Image byte sum: %lf\n", sum);
fprintf(stdout, "Image byte avg: %lf\n", sum/(dimUncropped.y*dimUncropped.x*bpp));
}
catch(const std::exception &exc)
{
printf("ERROR: [rawspeed] %s\n", exc.what());
/* if an exception is raised lets not retry or handle the
specific ones, consider the file as corrupted */
return 2;
}
catch(...)
{
printf("Unhandled exception in rawspeed-identify\n");
return 3;
}
return 0;
}
int main(int argc, const char* argv[])
{
if(argc != 2)
{
fprintf(stderr, "Usage: darktable-rs-identify <file>\n");
return 2;
}
FileReader f((char *) argv[1]);
#ifdef __APPLE__
std::auto_ptr<RawDecoder> d;
std::auto_ptr<FileMap> m;
#else
std::unique_ptr<RawDecoder> d;
std::unique_ptr<FileMap> m;
#endif
char camfile[PATH_MAX] = { 0 };
#if defined(__MACH__) || defined(__APPLE__)
char *directory = dt_loc_find_install_dir("/share/darktable", argv[0]);
if(!directory)
{
fprintf(stderr, "Couldn't find share/darktable folder\n");
return 2;
}
snprintf(camfile, sizeof(camfile), "%s/rawspeed/cameras.xml", directory);
#else
snprintf(camfile, sizeof(camfile), "%s/rawspeed/cameras.xml", DARKTABLE_DATADIR);
#endif
//fprintf(stderr, "Looking for cameras.xml in '%s'\n", camfile);
try
{
CameraMetaData *meta = new CameraMetaData(camfile);
#ifdef __APPLE__
m = auto_ptr<FileMap>(f.readFile());
#else
m = unique_ptr<FileMap>(f.readFile());
#endif
RawParser t(m.get());
#ifdef __APPLE__
d = auto_ptr<RawDecoder>(t.getDecoder(meta));
#else
d = unique_ptr<RawDecoder>(t.getDecoder(meta));
#endif
if(!d.get())
{
fprintf(stderr, "ERROR: Couldn't get a RawDecoder instance\n");
return 2;
}
d->failOnUnknown = true;
d->checkSupport(meta);
d->decodeRaw();
d->decodeMetaData(meta);
RawImage r = d->mRaw;
for (uint32 i=0; i<r->errors.size(); i++)
fprintf(stderr, "WARNING: [rawspeed] %s\n", r->errors[i]);
fprintf(stdout, "make: %s\n", r->metadata.make.c_str());
fprintf(stdout, "model: %s\n", r->metadata.model.c_str());
fprintf(stdout, "canonical_make: %s\n", r->metadata.canonical_make.c_str());
fprintf(stdout, "canonical_model: %s\n", r->metadata.canonical_model.c_str());
fprintf(stdout, "canonical_alias: %s\n", r->metadata.canonical_alias.c_str());
fprintf(stdout, "blackLevel: %d\n", r->blackLevel);
fprintf(stdout, "whitePoint: %d\n", r->whitePoint);
fprintf(stdout, "blackLevelSeparate: %d %d %d %d\n",
r->blackLevelSeparate[0], r->blackLevelSeparate[1],
r->blackLevelSeparate[2], r->blackLevelSeparate[3]);
fprintf(stdout, "wbCoeffs: %f %f %f %f\n",
r->metadata.wbCoeffs[0], r->metadata.wbCoeffs[1],
r->metadata.wbCoeffs[2], r->metadata.wbCoeffs[3]);
fprintf(stdout, "isCFA: %d\n", r->isCFA);
uint32_t filters = r->cfa.getDcrawFilter();
fprintf(stdout, "filters: %d (0x%x)\n", filters, filters);
uint32_t bpp = r->getBpp();
fprintf(stdout, "bpp: %d\n", bpp);
uint32_t cpp = r->getCpp();
fprintf(stdout, "cpp: %d\n", cpp);
fprintf(stdout, "dataType: %d\n", r->getDataType());
// dimensions of uncropped image
iPoint2D dimUncropped = r->getUncroppedDim();
fprintf(stdout, "dimUncropped: %dx%d\n", dimUncropped.x, dimUncropped.y);
// dimensions of cropped image
iPoint2D dimCropped = r->dim;
fprintf(stdout, "dimCropped: %dx%d\n", dimCropped.x, dimCropped.y);
// crop - Top,Left corner
iPoint2D cropTL = r->getCropOffset();
fprintf(stdout, "cropOffset: %dx%d\n", cropTL.x, cropTL.y);
fprintf(stdout, "fuji_rotation_pos: %d\n", r->metadata.fujiRotationPos);
fprintf(stdout, "pixel_aspect_ratio: %f\n", r->metadata.pixelAspectRatio);
double sum = 0.0f;
for(uint32_t row = 0; row < ((uint32_t) dimUncropped.y); row++)
{
uint8_t *data = r->getDataUncropped(0, 0);
for(uint32_t byte = 0; byte < ((uint32_t) dimUncropped.x*cpp*bpp) ; byte++)
sum += (double) data[byte];
}
fprintf(stdout, "Image byte sum: %lf\n", sum);
fprintf(stdout, "Image byte avg: %lf\n", sum/(dimUncropped.y*dimUncropped.x*cpp*bpp));
}
catch(const std::exception &exc)
{
printf("ERROR: [rawspeed] %s\n", exc.what());
/* if an exception is raised lets not retry or handle the
specific ones, consider the file as corrupted */
return 2;
}
catch(...)
{
printf("Unhandled exception in rawspeed-identify\n");
return 3;
}
return 0;
}
