This is probably a common question over the Internet, but I couldn't find an answer that neatly explains how you can convert a byte array to a hexadecimal string, and vice versa.
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Either: or: There are even more variants of doing it, for example here. The reverse conversion would go like this: Edit: you can improve performance for long strings by using a single pass parser, like so: |
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There's a class called SoapHexBinary that does exactly what you want. |
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Performance AnalysisNote: new leader as of 2013-01-15. I ran each of the various conversion methods through some crude WARNING: Do not rely on these stats for anything concrete; they are simply a sample run of sample data. If you really need top-notch performance, please test these methods in an environment representative of your production needs with data representative of what you will use.
Byte manipulation, while harder to read, is definitely the fastest approach, with the newest version added taking the lead quite significantly over the earlier version. Testing CodeFeel free to play with the testing code I used. A version is included here but feel free to clone the repo and add your own methods. Please submit a pull request if you find anything interesting or want to help improve the testing framework it uses.
Update (2010-01-13)Added Waleed's answer to analysis. Quite fast. Update (2011-10-05)Added Update (2012-02-05)Test repo includes more variants such as Update (2012-04-03)Added Mykroft's Update (2013-01-15)Added CodesInChaos's byte manipulation answer, which took over first place (by a large margin on large blocks of text). Update (2013-05-23)Added Nathan Moinvaziri's lookup answer and the variant from Brian Lambert's blog. Both rather fast, but not taking the lead on the test machine I used (AMD Phenom 9750). |
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If you want more flexibility than Or, if you're using .NET 4.0: (The latter from a comment on the original post) |
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I just encountered the very same problem today and I came across this code: Source: http://social.msdn.microsoft.com/Forums/en-US/csharpgeneral/thread/3928b8cb-3703-4672-8ccd-33718148d1e3/ (see the post by PZahra) I modified the code a little to remove the 0x prefix I did some performance testing to the code and it was almost 8 times faster than using BitConverter.ToString() (the fastest according to patridge's post) |
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You can use BitConverter.ToString Method: Output:
More Info: http://msdn.microsoft.com/en-us/library/3a733s97.aspx |
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When writing crypto code it's common to avoid data dependent branches and table lookups to ensure the runtime doesn't depend on the data, since data dependent timing can lead to side-channel attacks. It's also pretty fast. Ph'nglui mglw'nafh Cthulhu R'lyeh wgah'nagl fhtagn
An explanation of the weird bit fiddling:
Some further considerations:
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This problem could also be solved using a look-up table, this would require a small amount of static memory for both encoder and decoder, this method will however be fast:
My solution uses 1024B for the encoding table, and 256B for decoding. DecodingEncodingComparison* this solution NoteDuring decoding IOException and IndexOutOfRangeException could occur (if a character has a too high value > 256). Methods for de/encoding streams or arrays should be implemented, this is just a proof of concept. |
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This is a great post. I like Waleed's solution. I haven't run it through patridge's test but it seems to be quite fast. I also needed the reverse process, converting a hex string to a byte array, so I wrote it as a reversal of Waleed's solution. Not sure if it's any faster than Tomalak's original solution. Again, I did not run the reverse process through patridge's test either. |
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Why make it complex. This is simple in visual studio.net 2008: C#: VB: |
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Not to pile on to the many answers here, but I found a fairly optimal (~4.5x better than accepted), straightforward implementation of the hex string parser. First, output from my tests (first batch is my impl.): The base64 and 'BitConverter'd' lines are there to test for correctness. Note that they are equal. The implementation: I tried some stuff w/ (I concede that this answers half the question. I felt that the string->byte[] conversion was underrepresented, while the byte[]->string angle seems to be well covered. Thus, this answer.) |
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From Microsoft's developers, a nice, simple conversion: While the above is clean an compact, performance junkies will scream about it using enumerators. You can get peak performance with an improved version of Tomolak's original answer: This is the fastest of all the routines I've seen posted here so far. Don't just take my word for it... performance test each routine and inspect it's IL code for yourself. |
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And for inserting into an SQL string (if you're not using command parameters): |
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For performance I would go with drphrozens solution. A tiny optimization for the decoder could be to use a table for either char to get rid of the "<< 4". Clearly the two method calls are costly. If some kind of check is made either on input or output data (could be CRC, checksum or whatever) the Using This is just off the top of my head and has not been tested or benchmarked. |
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And to steal Tomalak's thunder... EXTENSION METHODS :) [disclaimer: completely untested code, btw .. just thought i'd add a quick post] etc.. use either of his three solutions (with the last one being an extension method on a string) |
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In terms of speed, this seems to be better than anything here: |
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If performance matters, here's an optimized solution: It's about 2.5 times faster that |
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Yet another variation for diversity: |
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I did not get the code you suggested to work, Olipro. I did, however have some success by taking some hints from Waleeds code and hammering this together. It's ugly as hell but it seems to work and performs at 1/3 of the time compared to the others according to my tests (using patridges testing mechanism). Depending on input size. Switching around the ?:s to separate out 0-9 first would probably yield a slightly faster result since there are more numbers than letters. |
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if you want to get the "4x speed increase" reported by wcoenen, then if it's not obvious: replace you could also take it a step further and get rid of the |
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This works to go from string to byte array... |
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I guess its speed is worth 16 extra bytes. |
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Two mashups which folds the two nibble operations into one. Probably pretty efficient version: Decadent linq-with-bit-hacking version: And reverse: |
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I suspect the speed of this will knock the socks off most of the other tests... |
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