Image pyramids 3 libvips Pyramids How to use libvips to make image pyramids libvips includes vips_dzsave(), an operation that can build image pyramids compatible with DeepZoom, Zoomify and Google Maps image viewers. It’s fast and can generate pyramids for large images using only a small amount of memory. The TIFF writer, vips_tiffsave() can also build tiled pyramidal TIFF images, but that’s very simple to use. This page concentrates on the DeepZoom builder. Run dzsave with no arguments to see a summary: $ vips dzsave save image to deepzoom file usage: dzsave in filename where: in - Image to save, input VipsImage filename - Filename to save to, input gchararray optional arguments: basename - Base name to save to, input gchararray layout - Directory layout, input VipsForeignDzLayout default: dz allowed: dz, zoomify, google, iiif, iiif3 suffix - Filename suffix for tiles, input gchararray overlap - Tile overlap in pixels, input gint default: 1 min: 0, max: 8192 tile-size - Tile size in pixels, input gint default: 254 min: 1, max: 8192 centre - Center image in tile, input gboolean default: false depth - Pyramid depth, input VipsForeignDzDepth default: onepixel allowed: onepixel, onetile, one angle - Rotate image during save, input VipsAngle default: d0 allowed: d0, d90, d180, d270 container - Pyramid container type, input VipsForeignDzContainer default: fs allowed: fs, zip properties - Write a properties file to the output directory, input gboolean default: false compression - ZIP deflate compression level, input gint default: 0 min: -1, max: 9 strip - Strip all metadata from image, input gboolean default: false background - Background value, input VipsArrayDouble operation flags: sequential nocache You can also call vips_dzsave() from any language with a libvips binding, or by using .dz or .szi as an output file suffix. The --layout option sets the basic mode of operation. With no --layout, dzsave writes DeepZoom pyramids. For example: $ vips dzsave huge.tif mydz This will create a directory called mydz_files containing the image tiles, and write a file called mydz.dzi containing the image metadata.  You can use the --suffix option to control how tiles are written. For example: $ vips dzsave huge.tif mydz --suffix .jpg[Q=90] will write JPEG tiles with the quality factor set to 90. You can set any format write options you like, see the API docs for vips_jpegsave() for details. Use --layout zoomify to put dzsave into zoomify mode. For example: $ vips dzsave huge.tif myzoom --layout zoomify This will create a directory called myzoom containing a file called ImageProperties.xml with the image metadata in, and a series of directories called TileGroupn, each containing 256 image tiles. As with DeepZoom, you can use --suffix to set jpeg quality. Use --layout google to write Google maps-style pyramids. These are compatible with Leaflet. For example: $ vips dzsave wtc.tif gmapdir --layout google Will create a directory called gmapdir containing blank.png, the file to display for blank tiles, and a set of numbered directories, one for each zoom level. The pyramid can be sparse (blank tiles are not written). As with DeepZoom, you can use --suffix to set jpeg quality. Use --background to set the background colour. This is the colour displayed for bits of the pyramid not in the image (image edges, for example). By default, the image background is white. Use --centre to add a border to the image large enough to centre the image within the lowest resolution tile. By default, images are not centred. For example: $ vips dzsave wtc.tif gmapdir --layout google --background 0 --centre You can use --tile-size and --overlap to control how large the tiles are and how they overlap (obviously). They default to the correct values for the selected layout. You can use --depth to control how deep the pyramid should be. Possible values are onepixel, onetile and one. onepixel means the image is shrunk until it fits within a single pixel. onetile means shrink until it fits with a tile. one means only write one pyramid layer (the highest resolution one). It defaults to the correct value for the selected layout. --depth one is handy for slicing up a large image into tiles (rather than a pyramid). You can use --angle to do a 90, 180 or 270 degree rotate of an image during pyramid write. You can use --container to set the container type. Normally dzsave will write a tree of directories, but with --container zip you’ll get a zip file instead. Use .zip as the directory suffix to turn on zip format automatically: $ vips dzsave wtc.tif mypyr.zip to write a zipfile containing the tiles. You can use .szi as a suffix to enable zip output as well. Use --properties to output an XML file called vips-properties.xml. This contains a dump of all the metadata vips has about the image as a set of name-value pairs. It’s handy with openslide image sources. You can use .dz as a filename suffix, meaning send the image to vips_dzsave(). This means you can write the output of any vips operation to a pyramid. For example: $ vips extract_area huge.svs mypy.dz[layout=google] 100 100 10000 10000 The arguments to extract_area are image-in, image-out, left, top, width, height. So this command will cut out a 10,000 by 10,000 pixel area from near the top-left-hand corner of an Aperio slide image, then build a pyramid in Google layout using just those pixels. If you are working from OpenSlide images, you can use the shrink-on-load feature of many of those formats. For example: $ vips dzsave CMU-1.mrxs[level=1] x Will pull out level 1 (the half-resolution level of an MRXS slide) and make a pyramid from that. If you are building vips from source you do need to check the summary at the end of configure carefully. You must have the libgsf-1-dev package for vips_dzsave() to work.