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I need to calculate Crc16 checksums with a $1021 polynom over large files, below is my current implementation but it's rather slow on large files (eg a 90 MB file takes about 9 seconds).

So my question is how to improve my current implementation (to make it faster), I have googled and looked at some samples implementing a table lookup but my problem is that I don't understand how to modify them to include the polynom (probably my math is failing).

{ based on }
function Crc16(const Buffer: PByte; const BufSize: Int64;
  const Polynom: WORD=$1021; const Seed: WORD=0): Word;
  i,j: Integer;
  Result := Seed;

  for i:=0 to BufSize-1 do
    Result := Result xor (Buffer[i] shl 8);

    for j:=0 to 7 do begin
      if (Result and $8000) <> 0 then
        Result := (Result shl 1) xor Polynom
      else Result := Result shl 1;

  Result := Result and $FFFF;
share|improve this question
How are you loading your file into memory? The bottleneck may be file IO, not your CRC function. Ie, what's slow: the process of calculating a CRC on a file, or the process of calculating a CRC on a memory buffer from some source that got loaded ages ago and definitely isn't being measured? – David M Sep 28 '10 at 7:38
It's loaded into a TMemoryStream (so it's buffer enterily in memory) so I think it must be the calculation. – Remko Sep 28 '10 at 7:52
up vote 2 down vote accepted

Look for CRC routines from jclMath.pas unit of Jedi Code Library. It uses CRC lookup tables.

share|improve this answer
Jcl implementation is producing the same results as my function (when I init the table with the correct polynom) and is quite fast (421 ms with the same large file) – Remko Sep 28 '10 at 8:54
I accepted this answer because Jcl has a Delphi implementation using lookup table. I found Ira Baxter's answer helpfull because of the explanation in the article and also thanks to Rob for his answer because there are some usefull bits in there. – Remko Sep 28 '10 at 12:55
Link is out of date – tardoandre Jan 28 '15 at 19:20

If you want this to be fast, you need to implement a table-lookup CRC algorithm.


share|improve this answer
+1 Good article, it helps for understanding how the table lookup works – Remko Sep 28 '10 at 9:35

Your Result variable is a Word, which means there are 64k possible values it could have upon entry to the inner loop. Calculate the 64k possible results that the loop could generate and store them in an array. Then, instead of looping eight times for each byte of the input buffer, simply look up the next value of the checksum in the array. Something like this:

function Crc16(const Buffer: PByte; const BufSize: Int64;
  const Polynom: Word = $1021; const Seed: Word = 0): Word;
  Results: array of Word = nil;
  OldPolynom: Word = 0;
  i, j: Integer;
  if (Polynom <> OldPolynom) or not Assigned(Results) then begin
    SetLength(Results, 65535);
    for i := 0 to Pred(Length(Results)) do begin
      Results[i] := i;
      for j := 0 to 7 do
        if (Results[i] and $8000) <> 0 then
          Results[i] := (Results[i] shl 1) xor Polynom
          Results[i] := Results[i] shl 1;
    OldPolynom := Polynom;

  Result := Seed;
  for i := 0 to Pred(BufSize) do
    Result := Results[Result xor (Buffer[i] shl 8)];

That code recalculates the lookup table any time Polynom changes. If that parameter varies among a set of values, then consider caching the lookup tables you generate for them so you don't waste time calculating the same tables repeatedly.

If Polynom will always be $1021, then don't even bother having a parameter for it. Calculate all 64k values in advance and hard-code them in a big array, so your entire function is reduced to just the last three lines of my function above.

share|improve this answer
Rob, I just copy/pasted your code to test and for a short teststring the results are the same as my function. But when running it on the large file the results are different. Need to test more to see why – Remko Sep 28 '10 at 8:37
Rob, your table is different from the table from Jcl, first row of Jcl Table: (0, $1021, $2042, $3063, $4084, $50A5, $60C6, $70E7, $8108, $9129, $A14A, $B16B, $C18C, $D1AD, $E1CE, First row of your table: (0, $100, $200, $300, $400, $500, $600, $700, $800, $900, $A00, – Remko Sep 28 '10 at 8:57

Old thread, i know. Here is my implementation (just one loop):

function crc16( s : string; bSumPos : Boolean = FALSE ) : Word;
 L, crc, sum, i, x, j : Word;

  if( L > 0 ) then
    for i:=1 to L do
            sum:=sum+((i) * j);
            x:=((crc shr 8) xor j) and $FF;
            x:=x xor (x shr 4);
            crc:=((crc shl 8) xor (x shl 12) xor (x shl 5) xor x) and $FFFF;
    Result:=crc+(Byte(bSumPos) * sum);

Nice thing is also that you can create an unique id with it, for example to get an unique identifier for a filename, like:

function uniqueId( s : string ) : Word;
 Result:=crc16( s, TRUE );

Cheers, Erwin Haantjes

share|improve this answer
Your code raises an exception: First chance exception at $7587C41F. Exception class ERangeError with message 'Range check error'. Process Project1.exe (8836) – Edijs Kolesnikovičs Jan 12 '14 at 6:11
hmmm strange, what was the string input that cause the error? Besides you can disable range checking {$R-}, I turned this off at default. – Erwinus Jan 12 '14 at 19:10

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