/* VIPS thumbnailer * * 11/1/09 * * 13/1/09 * - decode labq and rad images * - colour management * - better handling of tiny images * 25/1/10 * - added "--delete" * 6/2/10 * - added "--interpolator" * - added "--nosharpen" * - better 'open' logic, test lazy flag now * 13/5/10 * - oops hehe residual sharpen test was reversed * - and the mask coefficients were messed up * 26/5/10 * - delete failed if there was a profile * 4/7/10 * - oops sharpening was turning off for integer shrinks, thanks Nicolas * 30/7/10 * - use new "rd" mode rather than our own open via disc * 8/2/12 * - use :seq mode for png images * - shrink to a scanline cache to ensure we request pixels sequentially * from the input * 13/6/12 * - update the sequential stuff to the general method * 21/6/12 * - remove "--nodelete" option, have a --delete option instead, off by * default * - much more gentle extra sharpening * 13/11/12 * - allow absolute paths in -o (thanks fuho) * 3/5/13 * - add optional sharpening mask from file * 10/7/13 * - rewrite for vips8 * - handle embedded jpeg thumbnails */ #ifdef HAVE_CONFIG_H #include #endif /*HAVE_CONFIG_H*/ #include #include #include #include #include #include #include static int thumbnail_size = 128; static char *output_format = "tn_%s.jpg"; static char *interpolator = "bilinear"; static char *export_profile = NULL; static char *import_profile = NULL; static char *convolution_mask = "mild"; static gboolean delete_profile = FALSE; /* Deprecated and unused. */ static gboolean nosharpen = FALSE; static gboolean nodelete_profile = FALSE; static GOptionEntry options[] = { { "size", 's', 0, G_OPTION_ARG_INT, &thumbnail_size, N_( "set thumbnail size to SIZE" ), N_( "SIZE" ) }, { "output", 'o', 0, G_OPTION_ARG_STRING, &output_format, N_( "set output to FORMAT" ), N_( "FORMAT" ) }, { "interpolator", 'p', 0, G_OPTION_ARG_STRING, &interpolator, N_( "resample with INTERPOLATOR" ), N_( "INTERPOLATOR" ) }, { "sharpen", 'r', 0, G_OPTION_ARG_STRING, &convolution_mask, N_( "sharpen with none|mild|MASKFILE" ), N_( "none|mild|MASKFILE" ) }, { "eprofile", 'e', 0, G_OPTION_ARG_STRING, &export_profile, N_( "export with PROFILE" ), N_( "PROFILE" ) }, { "iprofile", 'i', 0, G_OPTION_ARG_STRING, &import_profile, N_( "import untagged images with PROFILE" ), N_( "PROFILE" ) }, { "delete", 'd', 0, G_OPTION_ARG_NONE, &delete_profile, N_( "delete profile from exported image" ), NULL }, { "verbose", 'v', G_OPTION_FLAG_HIDDEN, G_OPTION_ARG_NONE, NULL, N_( "(deprecated, does nothing)" ), NULL }, { "nodelete", 'l', G_OPTION_FLAG_HIDDEN, G_OPTION_ARG_NONE, &nodelete_profile, N_( "(deprecated, does nothing)" ), NULL }, { "nosharpen", 'n', G_OPTION_FLAG_HIDDEN, G_OPTION_ARG_NONE, &nosharpen, N_( "(deprecated, does nothing)" ), NULL }, { NULL } }; /* Calculate the shrink factors. * * We shrink in two stages: first, a shrink with a block average. This can * only accurately shrink by integer factors. We then do a second shrink with * a supplied interpolator to get the exact size we want. */ static int calculate_shrink( int width, int height, double *residual ) { /* We shrink to make the largest dimension equal to size. */ int dimension = IM_MAX( width, height ); double factor = dimension / (double) thumbnail_size; /* If the shrink factor is <=1.0, we need to zoom rather than shrink. * Just set the factor to 1 in this case. */ double factor2 = factor < 1.0 ? 1.0 : factor; /* Int component of shrink. */ int shrink = floor( factor2 ); /* Size after int shrink. */ int isize = floor( dimension / shrink ); /* Therefore residual scale factor is. */ if( residual ) *residual = thumbnail_size / (double) isize; return( shrink ); } /* Find the best jpeg preload shrink. */ static int thumbnail_find_jpegshrink( VipsImage *im ) { int shrink = calculate_shrink( im->Xsize, im->Ysize, NULL ); if( shrink >= 8 ) return( 8 ); else if( shrink >= 4 ) return( 4 ); else if( shrink >= 2 ) return( 2 ); else return( 1 ); } #define THUMBNAIL "jpeg-thumbnail-data" /* Try to read an embedded thumbnail. */ static VipsImage * thumbnail_get_thumbnail( VipsImage *im ) { void *ptr; size_t size; VipsImage *thumb; double residual; int jpegshrink; if( !vips_image_get_typeof( im, THUMBNAIL ) || vips_image_get_blob( im, THUMBNAIL, &ptr, &size ) || vips_jpegload_buffer( ptr, size, &thumb, NULL ) ) { vips_info( "vipsthumbnail", "no jpeg thumbnail" ); return( NULL ); } calculate_shrink( thumb->Xsize, thumb->Ysize, &residual ); if( residual > 1.0 ) { vips_info( "vipsthumbnail", "jpeg thumbnail too small" ); g_object_unref( thumb ); return( NULL ); } /* Reload with the correct downshrink. */ jpegshrink = thumbnail_find_jpegshrink( thumb ); vips_info( "vipsthumbnail", "loading jpeg thumbnail with factor %d pre-shrink", jpegshrink ); g_object_unref( thumb ); if( vips_jpegload_buffer( ptr, size, &thumb, "shrink", jpegshrink, NULL ) ) { vips_info( "vipsthumbnail", "jpeg thumbnail reload failed" ); return( NULL ); } vips_info( "vipsthumbnail", "using %dx%d jpeg thumbnail", thumb->Xsize, thumb->Ysize ); return( thumb ); } /* Open an image, returning the best version of that image for thumbnailing. * * jpegs can have embedded thumbnails ... use that if it's large enough. * * libjpeg supports fast shrink-on-read, so if we have a JPEG, we can ask * VIPS to load a lower resolution version. */ static VipsImage * thumbnail_open( VipsObject *thumbnail, const char *filename ) { const char *loader; VipsImage *im; vips_info( "vipsthumbnail", "thumbnailing %s", filename ); if( !(loader = vips_foreign_find_load( filename )) ) return( NULL ); vips_info( "vipsthumbnail", "selected loader is %s", loader ); if( strcmp( loader, "VipsForeignLoadJpegFile" ) == 0 ) { VipsImage *thumb; /* This will just read in the header and is quick. */ if( !(im = vips_image_new_from_file( filename )) ) return( NULL ); /* Try to read an embedded thumbnail. If we find one, use that * instead. */ if( (thumb = thumbnail_get_thumbnail( im )) ) { /* @thumb has not been fully decoded yet ... * we must not close @im * until we're done with @thumb. */ vips_object_local( VIPS_OBJECT( thumb ), im ); im = thumb; } else { int jpegshrink; vips_info( "vipsthumbnail", "processing main jpeg image" ); jpegshrink = thumbnail_find_jpegshrink( im ); g_object_unref( im ); vips_info( "vipsthumbnail", "loading jpeg with factor %d pre-shrink", jpegshrink ); if( vips_foreign_load( filename, &im, "sequential", TRUE, "shrink", jpegshrink, NULL ) ) return( NULL ); } } else { /* All other formats. */ if( vips_foreign_load( filename, &im, "sequential", TRUE, NULL ) ) return( NULL ); } vips_object_local( thumbnail, im ); return( im ); } static VipsImage * thumbnail_shrink( VipsObject *thumbnail, VipsImage *in, VipsInterpolate *interp, INTMASK *sharpen ) { VipsImage **t = (VipsImage **) vips_object_local_array( thumbnail, 10 ); int shrink; double residual; int tile_width; int tile_height; int nlines; /* Unpack the two coded formats we support. */ if( in->Coding == VIPS_CODING_LABQ ) { vips_info( "vipsthumbnail", "unpacking LAB to RGB" ); if( vips_colourspace( in, &t[0], VIPS_INTERPRETATION_sRGB, NULL ) ) return( NULL ); in = t[0]; } else if( in->Coding == IM_CODING_RAD ) { vips_info( "vipsthumbnail", "unpacking Rad to float" ); /* rad is scrgb. */ if( vips_rad2float( in, &t[1], NULL ) || vips_colourspace( t[1], &t[2], VIPS_INTERPRETATION_sRGB, NULL ) ) return( NULL ); in = t[2]; } shrink = calculate_shrink( in->Xsize, in->Ysize, &residual ); vips_info( "vipsthumbnail", "integer shrink by %d", shrink ); if( vips_shrink( in, &t[3], shrink, shrink, NULL ) ) return( NULL ); in = t[3]; /* We want to make sure we read the image sequentially. * However, the convolution we may be doing later will force us * into SMALLTILE or maybe FATSTRIP mode and that will break * sequentiality. * * So ... read into a cache where tiles are scanlines, and make sure * we keep enough scanlines to be able to serve a line of tiles. * * We use a threaded tilecache to avoid a deadlock: suppose thread1, * evaluating the top block of the output, is delayed, and thread2, * evaluating the second block, gets here first (this can happen on * a heavily-loaded system). * * With an unthreaded tilecache (as we had before), thread2 will get * the cache lock and start evaling the second block of the shrink. * When it reaches the png reader it will stall until the first block * has been used ... but it never will, since thread1 will block on * this cache lock. */ vips_get_tile_size( in, &tile_width, &tile_height, &nlines ); if( vips_tilecache( in, &t[4], "tile_width", in->Xsize, "tile_height", 10, "max_tiles", (nlines * 2) / 10, "access", VIPS_ACCESS_SEQUENTIAL, "threaded", TRUE, NULL ) || vips_affine( t[4], &t[5], residual, 0, 0, residual, NULL, "interpolate", interp, NULL ) ) return( NULL ); in = t[5]; vips_info( "vipsthumbnail", "residual scale by %g", residual ); vips_info( "vipsthumbnail", "%s interpolation", VIPS_OBJECT_GET_CLASS( interp )->nickname ); /* If we are upsampling, don't sharpen, since nearest looks dumb * sharpened. */ if( shrink >= 1 && residual <= 1.0 && sharpen ) { vips_info( "vipsthumbnail", "sharpening thumbnail" ); t[6] = vips_image_new(); if( im_conv( in, t[6], sharpen ) ) return( NULL ); in = t[6]; } /* Colour management: we can transform the image if we have an output * profile and an input profile. The input profile can be in the * image, or if there is no profile there, supplied by the user. */ if( export_profile && (vips_image_get_typeof( in, VIPS_META_ICC_NAME ) || import_profile) ) { if( vips_image_get_typeof( in, VIPS_META_ICC_NAME ) ) vips_info( "vipsthumbnail", "importing with embedded profile" ); else vips_info( "vipsthumbnail", "importing with profile %s", import_profile ); vips_info( "vipsthumbnail", "exporting with profile %s", export_profile ); if( vips_icc_transform( in, &t[7], export_profile, "input_profile", import_profile, "embedded", TRUE, NULL ) ) return( NULL ); in = t[7]; } if( delete_profile && vips_image_get_typeof( in, VIPS_META_ICC_NAME ) ) { vips_info( "vipsthumbnail", "deleting profile from output image" ); if( vips_image_remove( in, VIPS_META_ICC_NAME ) ) return( NULL ); } return( in ); } static VipsInterpolate * thumbnail_interpolator( VipsObject *thumbnail, VipsImage *in ) { double residual; VipsInterpolate *interp; calculate_shrink( in->Xsize, in->Ysize, &residual ); /* For images smaller than the thumbnail, we upscale with nearest * neighbor. Otherwise we makes thumbnails that look fuzzy and awful. */ if( !(interp = VIPS_INTERPOLATE( vips_object_new_from_string( g_type_class_ref( VIPS_TYPE_INTERPOLATE ), residual > 1.0 ? "nearest" : interpolator ) )) ) return( NULL ); vips_object_local( thumbnail, interp ); return( interp ); } /* Some interpolators look a little soft, so we have an optional sharpening * stage. */ static INTMASK * thumbnail_sharpen( void ) { static INTMASK *mask = NULL; if( !mask ) { if( strcmp( convolution_mask, "none" ) == 0 ) mask = NULL; else if( strcmp( convolution_mask, "mild" ) == 0 ) { mask = im_create_imaskv( "sharpen.con", 3, 3, -1, -1, -1, -1, 32, -1, -1, -1, -1 ); mask->scale = 24; } else if( !(mask = im_read_imask( convolution_mask )) ) vips_error_exit( "unable to load sharpen" ); } return( mask ); } /* Given (eg.) "/poop/somefile.png", write @im to the thumbnail name, * (eg.) "/poop/tn_somefile.jpg". */ static int thumbnail_write( VipsImage *im, const char *filename ) { char *file; char *p; char buf[FILENAME_MAX]; char *output_name; file = g_path_get_basename( filename ); /* Remove the suffix from the file portion. */ if( (p = strrchr( file, '.' )) ) *p = '\0'; /* output_format can be an absolute path, in which case we discard the * path from the incoming file. */ vips_snprintf( buf, FILENAME_MAX, output_format, file ); if( g_path_is_absolute( output_format ) ) output_name = g_strdup( buf ); else { char *dir; dir = g_path_get_dirname( filename ); output_name = g_build_filename( dir, buf, NULL ); g_free( dir ); } vips_info( "vipsthumbnail", "thumbnailing %s as %s", filename, output_name ); g_free( file ); if( vips_image_write_to_file( im, output_name ) ) { g_free( output_name ); return( -1 ); } g_free( output_name ); return( 0 ); } static int thumbnail_process( VipsObject *thumbnail, const char *filename ) { VipsImage *in; VipsInterpolate *interp; INTMASK *sharpen; VipsImage *thumb; if( !(in = thumbnail_open( thumbnail, filename )) ) return( -1 ); if( !(interp = thumbnail_interpolator( thumbnail, in )) ) return( -1 ); sharpen = thumbnail_sharpen(); if( !(thumb = thumbnail_shrink( thumbnail, in, interp, sharpen )) ) return( -1 ); if( thumbnail_write( thumb, filename ) ) return( -1 ); return( 0 ); } int main( int argc, char **argv ) { GOptionContext *context; GError *error = NULL; int i; if( vips_init( argv[0] ) ) vips_error_exit( "unable to start VIPS" ); textdomain( GETTEXT_PACKAGE ); setlocale( LC_ALL, "" ); context = g_option_context_new( _( "- thumbnail generator" ) ); g_option_context_add_main_entries( context, options, GETTEXT_PACKAGE ); g_option_context_add_group( context, vips_get_option_group() ); if( !g_option_context_parse( context, &argc, &argv, &error ) ) { if( error ) { fprintf( stderr, "%s\n", error->message ); g_error_free( error ); } vips_error_exit( "try \"%s --help\"", g_get_prgname() ); } g_option_context_free( context ); for( i = 1; i < argc; i++ ) { /* Hang resources for this processing off this. */ VipsObject *thumbnail = VIPS_OBJECT( vips_image_new() ); if( thumbnail_process( thumbnail, argv[i] ) ) { fprintf( stderr, "%s: unable to thumbnail %s\n", argv[0], argv[i] ); fprintf( stderr, "%s", vips_error_buffer() ); vips_error_clear(); } g_object_unref( thumbnail ); } vips_shutdown(); return( 0 ); }