18

I have a reference image of the effect that I am trying to achieve using SVG.

Bitmap reference image

In Photoshop the effect can be achieved by using 100% opacity with the blending mode set to 'multiply'

The colors have hex values of:

red: #EA312F, blue: #3A5BA6 and overlapping area: #35111F

I have tried a number of approaches using SVG filters to achieve a similar effect but am struggling to understand how the blending modes calculate the values.

SVG attempts to match original graphic

  1. Original Photoshop bitmap
  2. SVG using only shapes no filters
  3. SVG using multiply filter on vertical bar
  4. SVG using multiply filter and opacity on vertical bar

You can see the SVG code for each of these in this JSBin http://jsbin.com/iPePuvoD/1/edit

I'm really struggling to understand the best approach to match the blue of the vertical bar and the color of the overlapping area.

Each of these shapes i'd also like to animate using a library such as http://snapsvg.io/, so i'm hoping to rely purely on filters, rather than cropping or other operations to achieve the desired results - but am open to suggestions.

Effectively, the SVG for the final attempt (4.) is this:

<svg viewBox="0 0 96 146" version="1.1" id="f-multiply-opacity" preserveAspectRatio="xMinYMin meet">
  <defs>
    <filter id="f_multiply" filterUnits="objectBoundingBox" x="0%" y="0%" width="100%" height="100%">
      <feBlend in="SourceGraphic" mode="multiply"/>
      <feBlend in="SourceGraphic" mode="multiply"/>
    </filter>
  </defs>
  <g id="f_shape">
    <rect x="0" y="0" width="96" height="32" fill="#EA312F" />
    <rect x="0" y="50" width="96" height="32" fill="#EA312F" />
    <rect x="0" y="50" width="32" height="96" opacity="0.8" fill="#3A5BA6" filter="url(#f_multiply)" />
  </g>
</svg>

Would much appreciate some advice on this, I have found some good resources on SVG, but this area still seems quite difficult to get good information on.

Thanks!

3 Answers 3

11

See the Compositing and Blending Level 1 spec. It enables specifying the compositing and blending to use when rendering web content (including svg). It is testable in a number of browsers by a toggling a runtime flag, see here for instructions. For up-to-date browser support of mix-blend-mode see caniuse.

<svg>
  <style>
    circle { mix-blend-mode: multiply; }
  </style>
  <circle cx="40" cy="40" r="40" fill="#EA312F"/>
  <circle cx="80" cy="40" r="40" fill="#3A5BA6"/>
</svg>

As jsfiddle here.

2
  • Hi Erik - thanks very much & yes I did see some information about that - very exciting stuff & would make my life so much easier. BUT... i'm trying to target as many browsers as possible with this so don't think it is going to be applicable... yet. Thanks again for the suggestion.
    – Chris
    Commented Dec 17, 2013 at 15:15
  • I love you. This is great! Commented Dec 4, 2014 at 21:47
8

This won't work on a number of levels. Feblend takes two inputs not one. What are you blending the sourcegraphic with? If you want to blend with the background you need to use backgroundImage as your in2. If you want to blend with another shape you have to import that shape into the filter with feimage. Next problem BackgroundImage only works in IE at the moment, and feImage only works properly for referenced shapes in Chrome and Safari (Update: you can convert referenced shapes to an inline SVG data-URI and this will work cross browser).

If you are only using colored rectangles then you can generate them inside the filter using feflood and blend them there. Something like the following:

<svg x="800px" height="600px" viewBox="0 0 200 100" version="1.1" id="f-multiply-opacity" preserveAspectRatio="xMinYMin meet">
  <defs>
    <filter id="f_multiply" filterUnits="objectBoundingBox" x="0%" y="0%" width="100%" height="100%">
      <feFlood x="0" y="0" width="96" height="32" flood-color="#EA312F" result="a"/>
      <feFlood x="0" y="50" width="96" height="32" flood-color="#EA312F" result="b"/>
      <feFlood rect x="0" y="50" width="32" height="96" flood-opacity="0.8" flood-color="#3A5BA6" result="c"/>
      <feBlend in="a" in2="b" result="ab" mode="multiply"/>
      <feBlend in="ab" in2="c" mode="multiply"/>
     </filter>
  </defs>
  <g id="f_shape">
    <rect filter="url(#f_multiply)" x="0" y="0" width="200" height="200"/>
  </g>
</svg>

Update: The cross platform way to use shapes within a filter is to encode them as a SVG/XML data URI within a feImage. This is supported cross browser (although it makes the code fairly hard to read.)

3
  • Thank you - the example code you gave is a great insight to how the feBlend works, in fact the effect you demonstrate is exactly what I am looking for. I am aiming to blend primitive shapes that I think can be all drawn using flood (I hope). It works perfectly in Chrome for me now. This has definitely put me on a good path though - so thanks again.
    – Chris
    Commented Dec 10, 2013 at 19:10
  • 1
    Just a quick update - it appears I have now run into the same Firefox problem as you have already noted here: bugzilla.mozilla.org/show_bug.cgi?id=455986 and added my support to getting it resolved, I need to draw some shapes which aren't simply rectangles to produced the final desired effect.
    – Chris
    Commented Dec 10, 2013 at 22:10
  • I was able to give you the animation, but it's still incompatible with Firefox. :( http://jsfiddle.net/9AgDm/11/
    – ifugu
    Commented Aug 20, 2014 at 4:49
1

For all feBlend modes, the result opacity is computed as follows:

qr = 1 - (1-qa)*(1-qb)

For the compositing formulas below, the following definitions apply:

cr = Result color (RGB) - premultiplied 
qa = Opacity value at a given pixel for image A 
qb = Opacity value at a given pixel for image B 
ca = Color (RGB) at a given pixel for image A - premultiplied 
cb = Color (RGB) at a given pixel for image B - premultiplied 
The following table provides the list of available image blending modes:

Image Blending Mode Formula for computing result color

normal  cr = (1 - qa) * cb + ca
multiply    cr = (1-qa)*cb + (1-qb)*ca + ca*cb
screen  cr = cb + ca - ca * cb
darken  cr = Min ((1 - qa) * cb + ca, (1 - qb) * ca + cb)
lighten cr = Max ((1 - qa) * cb + ca, (1 - qb) * ca + cb)

From http://www.w3.org/TR/SVG/filters.html#feBlendElement

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