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140 lines
7.2 KiB
Plaintext
140 lines
7.2 KiB
Plaintext
Introduction to ImageMagick
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ImageMagick® is a software suite to create, edit, compose, or convert
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bitmap images. It can read and write images in a variety of formats (over
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200) including PNG, JPEG, GIF, HEIC, TIFF, DPX, EXR, WebP, Postscript,
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PDF, and SVG. Use ImageMagick to resize, flip, mirror, rotate, distort,
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shear and transform images, adjust image colors, apply various special
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effects, or draw text, lines, polygons, ellipses and Bezier curves.
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The functionality of ImageMagick is typically utilized from the command
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line or you can use the features from programs written in your favorite
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language. Choose from these interfaces: G2F (Ada), MagickCore (C),
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MagickWand (C), ChMagick (Ch), Magick++ (C++),
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JMagick (Java), L-Magick (Lisp), Lua, NMagick (Neko/haXe), Magick.NET
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(.NET), PascalMagick (Pascal), PerlMagick (Perl), MagickWand for PHP
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(PHP), IMagick (PHP), PythonMagick (Python), RMagick (Ruby), or TclMagick
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(Tcl/TK). With a language interface, use ImageMagick to modify or create
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images dynamically and automagically.
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ImageMagick utilize multiple computational threads to increase performance
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and can read, process, or write mega-, giga-, or tera-pixel image sizes.
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ImageMagick is free software delivered as a ready-to-run binary distribution
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or as source code that you may use, copy, modify, and distribute in both open
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and proprietary applications. It is distributed under a derived Apache 2.0
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license.
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The ImageMagick development process ensures a stable API and ABI. Before
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each ImageMagick release, we perform a comprehensive security assessment
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that includes memory error and thread data race detection to prevent
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security vulnerabilities.
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The current release is the ImageMagick 7.0.11-* series. It runs on Linux,
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Windows, Mac Os X, iOS, Android OS, and others.
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The authoritative ImageMagick web site is https://imagemagick.org. The
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authoritative source code repository is
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https://github.com/ImageMagick/ImageMagick.
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We continue to maintain the legacy release of ImageMagick, version 6,
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at https://legacy.imagemagick.org.
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Features and Capabilities
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Here are just a few examples of what ImageMagick can do:
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* Format conversion: convert an image from one format to another (e.g.
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PNG to JPEG).
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* Transform: resize, rotate, deskew, crop, flip or trim an image.
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* Transparency: render portions of an image invisible.
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* Draw: add shapes or text to an image.
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* Decorate: add a border or frame to an image.
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* Special effects: blur, sharpen, threshold, or tint an image.
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* Animation: create a GIF animation sequence from a group of images.
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* Text & comments: insert descriptive or artistic text in an image.
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* Image gradients: create a gradual blend of one color whose shape is
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horizontal, vertical, circular, or elliptical.
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* Image identification: describe the format and attributes of an image.
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* Composite: overlap one image over another.
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* Montage: juxtapose image thumbnails on an image canvas.
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* Generalized pixel distortion: correct for, or induce image distortions
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including perspective.
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* Computer vision: Canny edge detection.
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* Morphology of shapes: extract features, describe shapes and recognize
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patterns in images.
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* Motion picture support: read and write the common image formats used in
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digital film work.
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* Image calculator: apply a mathematical expression to an image or image
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channels.
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* Connected component labeling: uniquely label connected regions in an
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image.
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* Discrete Fourier transform: implements the forward and inverse DFT.
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* Perceptual hash: maps visually identical images to the same or similar
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hash-- useful in image retrieval, authentication, indexing, or copy
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detection as well as digital watermarking.
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* Complex text layout: bidirectional text support and shaping.
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* Color management: accurate color management with color profiles or in
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lieu of-- built-in gamma compression or expansion as demanded by the
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colorspace.
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* Bilateral blur: non-linear, edge-preserving, and noise-reducing
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smoothing filter.
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* High dynamic-range images: accurately represent the wide range of
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intensity levels found in real scenes ranging from the brightest direct
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sunlight to the deepest darkest shadows.
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* Encipher or decipher an image: convert ordinary images into
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unintelligible gibberish and back again.
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* Virtual pixel support: convenient access to pixels outside the image
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region.
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* Large image support: read, process, or write mega-, giga-, or
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tera-pixel image sizes.
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* Threads of execution support: ImageMagick is thread safe and most
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internal algorithms are OpenMP-enabled to take advantage of speed-ups
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offered by multicore processor chips.
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* Distributed pixel cache: offload intermediate pixel storage to one or
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more remote servers.
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* Heterogeneous distributed processing: certain algorithms are
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OpenCL-enabled to take advantage of speed-ups offered by executing in
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concert across heterogeneous platforms consisting of CPUs, GPUs, and
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other processors.
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* ImageMagick on the iPhone: convert, edit, or compose images on your
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iPhone or iPad.
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Examples of ImageMagick Usage * https://legacy.imagemagick.org/Usage/
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shows how to use ImageMagick from the command-line to accomplish any
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of these tasks and much more. Also, see Fred's ImageMagick Scripts @
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http://www.fmwconcepts.com/imagemagick/: a plethora of command-line scripts
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that perform geometric transforms, blurs, sharpens, edging, noise removal,
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and color manipulations. With Magick.NET, use ImageMagick without having
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to install ImageMagick on your server or desktop.
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News
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ImageMagick best practices strongly encourages you to configure a security
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policy that suits your local environment.
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Now that ImageMagick version 7 is released, we continue
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to maintain the legacy release of ImageMagick, version 6, at
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https://legacy.imagemagick.org. Learn how ImageMagick version 7 differs
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from previous versions with our porting guide.
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Want more performance from ImageMagick? Try these options:
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* add more memory to your system, see the pixel cache;
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* add more cores to your system, see threads of execution support;
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* reduce lock contention with the tcmalloc memory allocation library;
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* push large images to a solid-state drive, see large image support.
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If these options are prohibitive, you can reduce the quality of the image
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results. The default build is Q16 HDRI. If you disable HDRI, you use
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half the memory and instead of predominately floating point operations,
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you use the typically more efficient integer operations. The tradeoff
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is reduced precision and you cannot process out of range pixel values
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(e.g. negative). If you build the Q8 non-HDRI version of ImageMagick,
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you again reduce the memory requirements in half-- and once again there
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is a tradeoff, even less precision and no out of range pixel values. For
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a Q8 non-HDRI build of ImageMagick, use these configure script options:
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--with-quantum-depth=8 --disable-hdri.
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