VectAlign (a.k.a. VectorDrawableAlign) is a command line tool which automagically aligns two VectorDrawable "pathData" strings in order to allow morphing animations between them through an AnimatedVectorDrawable.

Here are some examples of what you can do with the help of VectAlign (take a look at the sample project for a live demo):

As stated In the official docs two paths must be compatible so that they can be morphed, which means that the paths must be composed by the same list of SVG commands (in terms of length and type of commands).

Example of compatible paths:

M 10,10 L 40,10 L 40,40 L 10,40 Z
M 25,10 L 40,25 L 25,40 L 10,25 Z

Example of incompatible paths:

M 10,10 L 40,10 L 40,40 L 10,40 Z
M 30,30 L 10,10 C 14,25 20,30 10,49 L 3,3 L 0,8 Z

Creating an AnimatedVectorDrawable containing morphing animations which use incompatible paths leads to runtime exceptions like the following:

android.view.InflateException: Binary XML file line #3 Can't morph from M 10,10 L 40,10 L 40,40 L 10,40 Z  to  M 30,30 L 10,10 C 14,25 20,30 10,49 L 3,3 L 0,8 Z
        at android.animation.AnimatorInflater.setupAnimatorForPath(AnimatorInflater.java:337)
        at android.animation.AnimatorInflater.parseAnimatorFromTypeArray(AnimatorInflater.java:283)
...

When the morphing involves only simple shapes is averagely simple to fix the paths by manually injecting or duplicating commands here and there; but when the complexity of the shapes grows, this task becomes quite tedious to do by hand (sometimes almost impossible). VectAlign automagically aligns any pair of SVG paths (regardless of their complexity), creating a new pair of morphable paths without altering the original images.

You can download the latest version of the pre-compiled jar from here.

Run VectAlign from command line by passing the two paths that you want to use in your morphing animation; you can pass these sequences by typing them directly or by referring a file (a simple txt file or even a standard SVG image):

Examples of execution

java -jar  vectalign.jar   --start "M 10,20..."   --end "M 30,30..."

java -jar  vectalign.jar   --start image1.svg   --end image2.svg

The result represents the aligned (and compatible) version of the input paths/images: these new paths can be finally morphed using an AnimatedVectorDrawable without incurring in the "Can't morph from X to Y" exceptions:

Example of output

--------------------
  ALIGNMENT RESULT  
-------------------- 
# new START sequence:  
M 48.0,54.0 L 31.0,42.0 L 15.0,54.0 L 21.0,35.0 L 6.0,23.0 L 25.0,23.0 L 25.0,23.0 L 25.0,23.0 L 25.0,23.0 L 32.0,4.0 L 40.0,23.0 L 58.0,23.0 L 42.0,35.0 L 48.0,54.0 

# new END sequence:  
M 48.0,54.0 L 48.0,54.0 L 48.0,54.0 L 48.0,54.0 L 31.0,54.0 L 15.0,54.0 L 10.0,35.0 L 6.0,23.0 L 25.0,10.0 L 32.0,4.0 L 40.0,10.0 L 58.0,23.0 L 54.0,35.0 L 48.0,54.0 

Available options

usage: java -jar vectalign.jar  [-s <SEQUENCE | TXT_FILE | SVG_FILE>] 
                                [-e <SEQUENCE | TXT_FILE | SVG_FILE>] [-v] [-h]

Options:

 -s,--start <SEQUENCE | TXT_FILE | SVG_FILE>   VectorDrawable sequence (or
                                               SVG file) which represents
                                               the starting image
 -e,--end <SEQUENCE | TXT_FILE | SVG_FILE>     VectorDrawable sequence (or
                                               SVG file) which represents
                                               the ending image
 -v,--version                                  Print the version of the 
                                               application
 -h,--help

VectAlign is based on an adaptation of the Needleman-Wunsch algorithm, which is used in bioinformatics to align protein or nucleotide sequences.

• This is an experimental tool which faces a complex task. Result's quality may vary depending on the inputs; thus, wow effect of the resulting animation is not guaranteed.
• Aligning complex shapes may create visual artifacts on one or both images; in this case, try to simplify the original SVG path (e.g. using InkScape) and then run VectAlign again (see also the Tips section).
• When referring a SVG file, all the path groups which compose the image will be merged in one single path.
• If your SVG path is too much complex the system renderer will throw a silent exception: "OpenGLRenderer﹕ Path too large to be rendered into a texture"; in this case you need to simplify your image further.

• When morphing complex aligned paths, for best result avoid using the fillColor attribute in your VectorDrawable and use the strokeColor only. This because filled surfaces are more likely to be affected by artifacts than the stroke-only ones and usually provide less gorgeous morphing effects.
• As general rule, similar images (in terms of SVG complexity) morph better than very different ones.
• If you don't like the result of a morphing, try to alter the original images by simplifying the SVG path (e.g. using InkScape) and then run VectAlign again.
• Since AnimatedVectorDrawable is API 21+ you can use the vector-compat library to extend support down to API 14+.

• DevBytes: Android Vector Graphics
• AnimatedVectorDrawable
• VectorDrawable
• VectorDrawableCompat on support library v7 (partial)
• SVG Paths Specification

Copyright 2015, Stefano Bonetta.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

   http://www.apache.org/licenses/LICENSE-2.0

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distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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