220 lines
8.3 KiB
OCaml
220 lines
8.3 KiB
OCaml
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(* Test int32 arithmetic and optimizations using the MD5 algorithm *)
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open Printf
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type context =
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{ buf: string;
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mutable pos: int;
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mutable a: int32;
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mutable b: int32;
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mutable c: int32;
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mutable d: int32;
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mutable bits: int64 }
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let step1 w x y z data s =
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let w =
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Int32.add (Int32.add w data)
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(Int32.logxor z (Int32.logand x (Int32.logxor y z))) in
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Int32.add x
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(Int32.logor (Int32.shift_left w s) (Int32.shift_right_logical w (32-s)))
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let step2 w x y z data s =
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let w =
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Int32.add (Int32.add w data)
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(Int32.logxor y (Int32.logand z (Int32.logxor x y))) in
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Int32.add x
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(Int32.logor (Int32.shift_left w s) (Int32.shift_right_logical w (32-s)))
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let step3 w x y z data s =
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let w =
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Int32.add (Int32.add w data)
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(Int32.logxor x (Int32.logxor y z)) in
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Int32.add x
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(Int32.logor (Int32.shift_left w s) (Int32.shift_right_logical w (32-s)))
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let step4 w x y z data s =
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let w =
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Int32.add (Int32.add w data)
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(Int32.logxor y (Int32.logor x (Int32.logxor z (-1l)))) in
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Int32.add x
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(Int32.logor (Int32.shift_left w s) (Int32.shift_right_logical w (32-s)))
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let transform ctx data =
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let a = ctx.a and b = ctx.b and c = ctx.c and d = ctx.d in
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let a = step1 a b c d (Int32.add data.(0) 0xd76aa478l) 7 in
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let d = step1 d a b c (Int32.add data.(1) 0xe8c7b756l) 12 in
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let c = step1 c d a b (Int32.add data.(2) 0x242070dbl) 17 in
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let b = step1 b c d a (Int32.add data.(3) 0xc1bdceeel) 22 in
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let a = step1 a b c d (Int32.add data.(4) 0xf57c0fafl) 7 in
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let d = step1 d a b c (Int32.add data.(5) 0x4787c62al) 12 in
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let c = step1 c d a b (Int32.add data.(6) 0xa8304613l) 17 in
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let b = step1 b c d a (Int32.add data.(7) 0xfd469501l) 22 in
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let a = step1 a b c d (Int32.add data.(8) 0x698098d8l) 7 in
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let d = step1 d a b c (Int32.add data.(9) 0x8b44f7afl) 12 in
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let c = step1 c d a b (Int32.add data.(10) 0xffff5bb1l) 17 in
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let b = step1 b c d a (Int32.add data.(11) 0x895cd7bel) 22 in
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let a = step1 a b c d (Int32.add data.(12) 0x6b901122l) 7 in
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let d = step1 d a b c (Int32.add data.(13) 0xfd987193l) 12 in
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let c = step1 c d a b (Int32.add data.(14) 0xa679438el) 17 in
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let b = step1 b c d a (Int32.add data.(15) 0x49b40821l) 22 in
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let a = step2 a b c d (Int32.add data.(1) 0xf61e2562l) 5 in
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let d = step2 d a b c (Int32.add data.(6) 0xc040b340l) 9 in
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let c = step2 c d a b (Int32.add data.(11) 0x265e5a51l) 14 in
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let b = step2 b c d a (Int32.add data.(0) 0xe9b6c7aal) 20 in
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let a = step2 a b c d (Int32.add data.(5) 0xd62f105dl) 5 in
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let d = step2 d a b c (Int32.add data.(10) 0x02441453l) 9 in
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let c = step2 c d a b (Int32.add data.(15) 0xd8a1e681l) 14 in
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let b = step2 b c d a (Int32.add data.(4) 0xe7d3fbc8l) 20 in
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let a = step2 a b c d (Int32.add data.(9) 0x21e1cde6l) 5 in
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let d = step2 d a b c (Int32.add data.(14) 0xc33707d6l) 9 in
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let c = step2 c d a b (Int32.add data.(3) 0xf4d50d87l) 14 in
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let b = step2 b c d a (Int32.add data.(8) 0x455a14edl) 20 in
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let a = step2 a b c d (Int32.add data.(13) 0xa9e3e905l) 5 in
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let d = step2 d a b c (Int32.add data.(2) 0xfcefa3f8l) 9 in
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let c = step2 c d a b (Int32.add data.(7) 0x676f02d9l) 14 in
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let b = step2 b c d a (Int32.add data.(12) 0x8d2a4c8al) 20 in
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let a = step3 a b c d (Int32.add data.(5) 0xfffa3942l) 4 in
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let d = step3 d a b c (Int32.add data.(8) 0x8771f681l) 11 in
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let c = step3 c d a b (Int32.add data.(11) 0x6d9d6122l) 16 in
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let b = step3 b c d a (Int32.add data.(14) 0xfde5380cl) 23 in
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let a = step3 a b c d (Int32.add data.(1) 0xa4beea44l) 4 in
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let d = step3 d a b c (Int32.add data.(4) 0x4bdecfa9l) 11 in
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let c = step3 c d a b (Int32.add data.(7) 0xf6bb4b60l) 16 in
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let b = step3 b c d a (Int32.add data.(10) 0xbebfbc70l) 23 in
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let a = step3 a b c d (Int32.add data.(13) 0x289b7ec6l) 4 in
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let d = step3 d a b c (Int32.add data.(0) 0xeaa127fal) 11 in
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let c = step3 c d a b (Int32.add data.(3) 0xd4ef3085l) 16 in
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let b = step3 b c d a (Int32.add data.(6) 0x04881d05l) 23 in
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let a = step3 a b c d (Int32.add data.(9) 0xd9d4d039l) 4 in
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let d = step3 d a b c (Int32.add data.(12) 0xe6db99e5l) 11 in
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let c = step3 c d a b (Int32.add data.(15) 0x1fa27cf8l) 16 in
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let b = step3 b c d a (Int32.add data.(2) 0xc4ac5665l) 23 in
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let a = step4 a b c d (Int32.add data.(0) 0xf4292244l) 6 in
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let d = step4 d a b c (Int32.add data.(7) 0x432aff97l) 10 in
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let c = step4 c d a b (Int32.add data.(14) 0xab9423a7l) 15 in
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let b = step4 b c d a (Int32.add data.(5) 0xfc93a039l) 21 in
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let a = step4 a b c d (Int32.add data.(12) 0x655b59c3l) 6 in
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let d = step4 d a b c (Int32.add data.(3) 0x8f0ccc92l) 10 in
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let c = step4 c d a b (Int32.add data.(10) 0xffeff47dl) 15 in
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let b = step4 b c d a (Int32.add data.(1) 0x85845dd1l) 21 in
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let a = step4 a b c d (Int32.add data.(8) 0x6fa87e4fl) 6 in
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let d = step4 d a b c (Int32.add data.(15) 0xfe2ce6e0l) 10 in
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let c = step4 c d a b (Int32.add data.(6) 0xa3014314l) 15 in
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let b = step4 b c d a (Int32.add data.(13) 0x4e0811a1l) 21 in
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let a = step4 a b c d (Int32.add data.(4) 0xf7537e82l) 6 in
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let d = step4 d a b c (Int32.add data.(11) 0xbd3af235l) 10 in
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let c = step4 c d a b (Int32.add data.(2) 0x2ad7d2bbl) 15 in
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let b = step4 b c d a (Int32.add data.(9) 0xeb86d391l) 21 in
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ctx.a <- Int32.add ctx.a a;
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ctx.b <- Int32.add ctx.b b;
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ctx.c <- Int32.add ctx.c c;
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ctx.d <- Int32.add ctx.d d
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let string_to_data s =
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let data = Array.make 16 0l in
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for i = 0 to 15 do
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let j = i lsl 2 in
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data.(i) <-
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Int32.logor (Int32.shift_left (Int32.of_int (Char.code s.[j+3])) 24)
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(Int32.logor (Int32.shift_left (Int32.of_int (Char.code s.[j+2])) 16)
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(Int32.logor (Int32.shift_left (Int32.of_int (Char.code s.[j+1])) 8)
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(Int32.of_int (Char.code s.[j]))))
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done;
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data
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let int32_to_string n s i =
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s.[i+3] <- Char.chr (Int32.to_int (Int32.shift_right n 24) land 0xFF);
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s.[i+2] <- Char.chr (Int32.to_int (Int32.shift_right n 16) land 0xFF);
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s.[i+1] <- Char.chr (Int32.to_int (Int32.shift_right n 8) land 0xFF);
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s.[i] <- Char.chr (Int32.to_int n land 0xFF)
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let init () =
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{ buf = String.create 64;
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pos = 0;
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a = 0x67452301l;
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b = 0xefcdab89l;
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c = 0x98badcfel;
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d = 0x10325476l;
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bits = 0L }
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let update ctx input ofs len =
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let rec upd ofs len =
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if len <= 0 then () else
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if ctx.pos + len < 64 then begin
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(* Just buffer the data *)
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String.blit input ofs ctx.buf ctx.pos len;
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ctx.pos <- ctx.pos + len
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end else begin
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(* Fill the buffer *)
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let len' = 64 - ctx.pos in
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if len' > 0 then String.blit input ofs ctx.buf ctx.pos len';
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(* Transform 64 bytes *)
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transform ctx (string_to_data ctx.buf);
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ctx.pos <- 0;
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upd (ofs + len') (len - len')
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end in
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upd ofs len;
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ctx.bits <- Int64.add ctx.bits (Int64.of_int (len lsl 3))
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let finish ctx =
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let padding = String.make 64 '\000' in
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padding.[0] <- '\x80';
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let numbits = ctx.bits in
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if ctx.pos < 56 then begin
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update ctx padding 0 (56 - ctx.pos)
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end else begin
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update ctx padding 0 (64 + 56 - ctx.pos)
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end;
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assert (ctx.pos = 56);
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let data = string_to_data ctx.buf in
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data.(14) <- (Int64.to_int32 numbits);
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data.(15) <- (Int64.to_int32 (Int64.shift_right_logical numbits 32));
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transform ctx data;
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let res = String.create 16 in
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int32_to_string ctx.a res 0;
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int32_to_string ctx.b res 4;
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int32_to_string ctx.c res 8;
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int32_to_string ctx.d res 12;
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res
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let test s =
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let ctx = init() in
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update ctx s 0 (String.length s);
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let res = finish ctx in
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let exp = Digest.string s in
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let ok = (res = exp) in
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if not ok then Printf.printf "Failure for '%s'\n" s;
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ok
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let time msg iter fn =
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let start = Sys.time() in
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for i = 1 to iter do fn () done;
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let stop = Sys.time() in
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printf "%s: %.2f s\n" msg (stop -. start)
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let _ =
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(* Test *)
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if test ""
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&& test "a"
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&& test "abc"
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&& test "message digest"
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&& test "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789"
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then printf "Test vectors passed.\n";
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flush stdout;
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(* Benchmark *)
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let s = String.make 50000 'a' in
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let num_iter = 1000 in
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time "Caml implementation" num_iter
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(fun () ->
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let ctx = init() in
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update ctx s 0 (String.length s);
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ignore (finish ctx));
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time "C implementation" num_iter
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(fun () -> ignore (Digest.string s))
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