Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I'm currently investigating how to use the SSE 4.2 String and Text Processing Instructions STTNI (http://software.intel.com/en-us/articles/xml-parsing-accelerator-with-intel-streaming-simd-extensions-4-intel-sse4/) for efficient CSV file parsing.

My question is if this has been tried before for CSV file/in-memory CSV parsing and if examples are available online? So far I was not successful in finding good resources (except the Intel article mentioned above) on how to use SSE 4.2 for text parsing.

The current strategy I'm trying is to, for each 16 bytes, create 4 bitmasks:

  • one matching each character against the delimiter
  • one matching each character against the newline character
  • one matching each character against the quotation character (strings); and
  • one matching each character against the escape character (escaping delimiter, newlines, quotes)

with the information gained by the bitmasks it is easy to determine the offsets and lengths for each value in the CSV.

share|improve this question
Note that that the quotation character could potentially be escaped which will probably be hard to handle with the approach you sketched. –  Henrik Mühe Sep 28 '12 at 12:59

1 Answer 1

up vote 3 down vote accepted

Why are you using the bitmasks? Wouldn't it be better to check for all of those events with a single STTNI instruction and then use the returned index to process the event returned (if any)?

(edit) let me try to be more helpful...

(I'll assume you are using null terminated strings of 8-bit chars. Let me know if that is not the case.)

I think you'd do better to put the delimiter, the newline, the quotation and the escape into a single register (as a null terminated string) and use PCMPISTRI instead of PCMPISTRM using each value. For the control word you'll want to indicate: Unsigned bytes, Equal Any, Positive Polarity, Least. (Pretty sure I got that right.)

You can then use JA to simultaneously check to see if any of the 4 special characters were hit or the end of the string was reached. If so, escape the loop to deal with it. If not, add ECX to the xmm2/m128 pointer and jump back to the PCMPISTRI.

First instruction of code to deal with a "hit" is to add ECX to xmm2/m128 pointer, then process each possibility in turn. I suggest ordering them from most likely to least.

So, the asm should end up looking something like:

XOR       ECX, ECX  
ADD       EAX, ECX  
JA        TAG1  
ADD       EAX, ECX  
CMP       BYTE PTR[EAX], "delimiter"  
JE        "handle delimiter"  
CMP       BYTE PTR[EAX], "newline"  
JE        "handle newline"  
CMP       BYTE PTR[EAX], "quotation"  
JE        "handle quotation"  
CMP       BYTE PTR[EAX], "escape"  
JE        "handle escape"  
CMP       BYTE PTR[EAX], "end of string"  
JE        "handle end of string"  

I'll let you decide what the best order for testing delimiters is. :)

When I was developing the instructions I used to be able to get the compiler to generate the asm code above using intrinsics. It's been a while since I've done work with the instructions though so not sure if the average compiler will do well or not. (would be interesting to hear what results you get.)

share|improve this answer
Thanks Mike, this sounds great! I'll keep you updated on what I can come up with. –  muehlbau Oct 9 '12 at 7:50

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.