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Jinja2 and Mako are both apparently pretty fast.

How do these compare to (the less featured but probably good enough for what I'm doing) string.Template ?

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  • 2
    "compare"? Do you want to compare speed? The jinja folks say string.Template is faster. What more do you need to know? Or do you want to compare some other aspect?
    – S.Lott
    Aug 24, 2009 at 19:42
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    You probably don't care how fast the templating system is. Among the popular ones, they all have perfectly acceptable performance characteristics. Please make decisions like this based on more important things, like ease of programming.
    – Christian Oudard
    Aug 24, 2009 at 21:01
  • It depends, really. Where I work we serve a lot of templates per seconds and we have an army of highly skilled coders and designers, so in this context speed is more important than "ease of programming". Moreover, I would say that ease of reading is more important than ease of programming.
    – gb.
    Mar 28, 2012 at 14:21
  • @Emil, hey why the rollback?
    – anatoly techtonik
    Jan 18, 2013 at 13:00
  • @techtonik If you have more info to add, you can do so in a new answer - it is considered bad practice changing the actual content of an answer :)
    – Emil
    Jan 19, 2013 at 17:08

5 Answers 5

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Here are the results of the popular template engines for rendering a 10x1000 HTML table.

Python 2.6.2 on a 3GHz Intel Core 2

Kid template                         696.89 ms
Kid template + cElementTree          649.88 ms
Genshi template + tag builder        431.01 ms
Genshi tag builder                   389.39 ms
Django template                      352.68 ms
Genshi template                      266.35 ms
ElementTree                          180.06 ms
cElementTree                         107.85 ms
StringIO                              41.48 ms
Jinja 2                               36.38 ms
Cheetah template                      34.66 ms
Mako Template                         29.06 ms
Spitfire template                     21.80 ms
Tenjin                                18.39 ms
Spitfire template -O1                 11.86 ms
cStringIO                              5.80 ms
Spitfire template -O3                  4.91 ms
Spitfire template -O2                  4.82 ms
generator concat                       4.06 ms
list concat                            3.99 ms
generator concat optimized             2.84 ms
list concat optimized                  2.62 ms

The benchmark is based on code from Spitfire performance tests with some added template engines and added iterations to increase accuracy. The list and generator concat at the end are hand coded Python to get a feel for the upper limit of performance achievable by compiling to Python bytecode. The optimized versions use string interpolation in the inner loop.

But before you run out to switch your template engine, make sure it matters. You'll need to be doing some pretty heavy caching and really optimized code before the differences between the compiling template engines starts to matter. For most applications good abstraction facilities, compatibility with design tools, familiarity and other things matter much much more.

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  • 6
    I didn't know that Django template is that sloow.
    – Joshua Partogi
    Aug 25, 2009 at 5:57
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    I didn't either. It's a small part of the equation for most, but if you're rendering a 10x1000 table of data, you're in trouble.
    – orokusaki
    Sep 18, 2010 at 21:06
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    This comparison is, of course, highly dependent on what you're doing. What if you're rendering lots of small templates rather than one massive table? Then entirely different performance characteristics of the template engine would become relevant, like template parsing and loading time. Moral? Make optimization decisions based on your own benchmarks of your own code.
    – Carl Meyer
    Feb 28, 2011 at 19:58
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    Yep, Tenjin has a 3ms load time for every render, in my case of a forum with threaded comments Cheetah takes 0.4 ms for 1 comment while tenjin takes 3ms, at 50 comments tenjin and cheetah meet at 5ms. At 5000 tenjin is at 40ms Cheetah is at 250ms.
    – user317033
    Jul 31, 2013 at 18:54
  • I have my own copy of the "bigtable" (10x1000) test used for benchmarking, having written my own engine after discovering that the other wheels were all square (no mid-stream flushing, sub-optimal performance, hilarious complexity). If TTFB is important to you, 0.02ms (47,938 gen/sec) seems to solidly win the "fastest" badge. (Vs. Tenjin's 50 gen/sec.)
    – amcgregor
    Dec 12, 2018 at 20:24
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From the jinja2 docs, it seems that string.Template is the fastest if that's all you need.

Without a doubt you should try to remove as much logic from templates as possible. But templates without any logic mean that you have to do all the processing in the code which is boring and stupid. A template engine that does that is shipped with Python and called string.Template. Comes without loops and if conditions and is by far the fastest template engine you can get for Python.

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If you can throw caching in the mix (like memcached) then choose based on features and ease of use rather than optimization.

I use Mako because I like the syntax and features. Fortunately it is one of the fastest as well.

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  • We used to use Mako templates, until our multi-megabyte RSS feeds began failing to generate in time (<30s), as Mako buffers the whole response, our users were getting absolutely nothing back and our memory pressure was extraordinarily high. It's also not particularly fast. It's in the same class as Bottle's engine, or Tenjin, but pales in comparison to my own, which does support mid-stream flushing. (48 gen/sec vs. 47,937 gen/sec.) (Now, even if the feed takes longer than 30s to generate, it doesn't time out and is streamed.)
    – amcgregor
    Apr 19, 2019 at 16:59
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In general you will have to do profiling to answer that question, as it depends on how you use the templates and what for.

string.Template is the fastest, but so primitive it can hardly be called a template in the same breath as the other templating systems, as it only does string replacements, and has no conditions or loops, making it pretty useless in practice.

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I think Cheetah might be the fastest, as it's implemented in C.

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    Just because something is written in C, it does not mean that it will be faster; These things highly depend on the developer.
    – kzh
    Jun 3, 2010 at 15:58
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    Yes, what kzh is true. Also, Cheetah isn't written in C -- it's written in Python. However, a small part of it, the "name mapper", can optionally use a much faster, compiled C version.
    – Ben Hoyt
    Feb 15, 2011 at 21:27
  • I once wrote an HTTP/1.1 server in Python. For normalizing the header names, which under WSGI must be ALL_UPPER_UND_SEP (a la CGI) I thought, gee, C code must be efficient for this, so I "borrowed" the relevant C module from Rack, or another Ruby web server. It was 1000 lines of C machine-generated from Ruby. The Python ran substantially faster than the compiled C, despite repeated .replace() invocations and chains of other filters (upper, &c.), and was infinitely easier to understand.
    – amcgregor
    Mar 26, 2019 at 17:27
  • Ah, right, I'll also point out the template-specific benchmarks. Cheetah is one of the absolute worst performers in the "big table" test, that is, generation of a single <table> with 10 columns and 1000 rows from a static list of dicts. It gets just under 10 generations per second. Any of the modern parser/generator engines trounce it (even Mako is 2x faster), and my own method of streaming generation leaves it in the dust. (Just under 48,000 generations per second: Cheetah is thus 0.02% as performant. Not 2%. 0.02%.)
    – amcgregor
    Apr 19, 2019 at 17:06

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