VIPS from the command-line 1 VIPS Library Using VIPS How to use the VIPS library from the command-line Use the vips command to execute VIPS operations from the command-line. For example: $ vips rot k2.jpg x.jpg d90 Will rotate the image k2.jpg by 90 degrees anticlockwise and write the result to the file x.jpg. If you don't give any arguments to an operation, vips will give a short description, for example: $ vips rot rotate an image usage: rot in out angle where: in - Input image, input VipsImage out - Output image, output VipsImage angle - Angle to rotate image, input VipsAngle default: d90 allowed: d0, d90, d180, d270 There's a straightforward relationship with the C API: compare this to the API docs for vips_rot(), for example. You can list all classes with: $ vips -l ... VipsOperation (operation), operations VipsSystem (system), run an external command VipsArithmetic (arithmetic), arithmetic operations VipsBinary (binary), binary operations VipsAdd (add), add two images ... etc. Each line shows the canonical name of the class (for example VipsAdd), the class nickname (add in this case), and a short description. Some subclasses of operation will show more: for example, subclasses of VipsForeign will show some of the extra flags supported by the file load/save operations. Many operations take optional arguments. You can supply these as command-line options, for example: $ vips gamma gamma an image usage: gamma in out where: in - Input image, input VipsImage out - Output image, output VipsImage optional arguments: exponent - Gamma factor, input gdouble default: 2.4 min: 1e-06, max: 1000 operation flags: sequential-unbuffered vips_gamma() applies a gamma factor to an image. By default, it uses 2.4, the sRGB gamma factor, but you can specify any gamma with the exponent option. Use it from the command-line like this: $ vips gamma k2.jpg x.jpg --exponent 0.42 This will read file k2.jpg, un-gamma it, and write the result to file x.jpg. Some operations take arrays of values as arguments, for example, vips_affine() needs an array of four numbers for the 2x2 transform matrix. You pass arrays as space-separated lists, for example: $ vips affine k2.jpg x.jpg "2 0 0 1" You may need the quotes to stop your shell breaking the argument at the spaces. vips_bandjoin() needs an array of input images to join, run it like this: $ vips bandjoin "k2.jpg k4.jpg" x.tif vips will automatically convert between image file formats for you. Input images are detected by sniffing their first few bytes; output formats are set from the filename suffix. You can see a list of all the supported file formats with something like: $ vips -l foreign Then get a list of the options a format supports with, for example: $ vips jpegsave You can pass options to the implicit load and save operations enclosed in square brackets after the filename. For example: vips affine k2.jpg x.jpg[Q=90,strip] "2 0 0 1" Will write x.jpg at quality level 90 and will strip all metadata from the image. Because each operation runs in a separate process, you can't use libvips's chaining system to join operations together, you have to use intermediate files. The command-line interface is therefore quite a bit slower than Python or C. The best alternative is to use vips files for intermediates. Something like: vips invert input.jpg t1.v vips affine t1.v output.jpg "2 0 0 1" rm t1.v Finally, vips has a couple of useful extra options. Use --vips-progress to get vips to display a simple progress indicator. Use --vips-leak and vips will leak-test on exit, and also display an estimate of peak memory use. Set G_MESSAGES_DEBUG=VIPS and GLib will display informational and debug messages from libvips. VIPS comes with a couple of other useful programs. vipsheader is a command which can print image header fields. vipsedit can change fields in vips format images. vipsthumbnail can make image thumbnails quickly.