src
CondFormats
Common
src
hash64.cc
Go to the documentation of this file.
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#include "
CondFormats/Common/interface/hash64.h
"
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/*
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--------------------------------------------------------------------
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mix -- mix 3 64-bit values reversibly.
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mix() takes 48 machine instructions, but only 24 cycles on a superscalar
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machine (like Intel's new MMX architecture). It requires 4 64-bit
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registers for 4::2 parallelism.
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All 1-bit deltas, all 2-bit deltas, all deltas composed of top bits of
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(a,b,c), and all deltas of bottom bits were tested. All deltas were
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tested both on random keys and on keys that were nearly all zero.
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These deltas all cause every bit of c to change between 1/3 and 2/3
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of the time (well, only 113/400 to 287/400 of the time for some
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2-bit delta). These deltas all cause at least 80 bits to change
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among (a,b,c) when the mix is run either forward or backward (yes it
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is reversible).
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This implies that a hash using mix64 has no funnels. There may be
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characteristics with 3-bit deltas or bigger, I didn't test for
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those.
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--------------------------------------------------------------------
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*/
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#define mix64(a, b, c) \
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{ \
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a -= b; \
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a -= c; \
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a ^= (c >> 43); \
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b -= c; \
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b -= a; \
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b ^= (a << 9); \
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c -= a; \
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c -= b; \
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c ^= (b >> 8); \
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a -= b; \
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a -= c; \
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a ^= (c >> 38); \
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b -= c; \
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b -= a; \
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b ^= (a << 23); \
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c -= a; \
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c -= b; \
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c ^= (b >> 5); \
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a -= b; \
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a -= c; \
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a ^= (c >> 35); \
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b -= c; \
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b -= a; \
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b ^= (a << 49); \
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c -= a; \
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c -= b; \
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c ^= (b >> 11); \
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a -= b; \
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a -= c; \
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a ^= (c >> 12); \
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b -= c; \
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b -= a; \
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b ^= (a << 18); \
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c -= a; \
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c -= b; \
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c ^= (b >> 22); \
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}
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typedef
unsigned
long
long
ub8
;
/* unsigned 8-byte quantities */
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typedef
unsigned
long
int
ub4
;
/* unsigned 4-byte quantities */
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typedef
unsigned
char
ub1
;
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namespace
cond
{
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ub8
hash64
(
ub1
*
k
,
ub8
length,
ub8
level
)
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// register ub1 *k; /* the key */
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// register ub8 length; /* the length of the key */
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// register ub8 level; /* the previous hash, or an arbitrary value */
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{
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ub8
a
,
b
,
c
, len;
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/* Set up the internal state */
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len = length;
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a
=
b
=
level
;
/* the previous hash value */
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c
= 0x9e3779b97f4a7c13
LL
;
/* the golden ratio; an arbitrary value */
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/*---------------------------------------- handle most of the key */
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if
(((
unsigned
long
)
k
) & 7) {
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while
(len >= 24) {
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a
+= (
k
[0] + ((
ub8
)
k
[1] << 8) + ((
ub8
)
k
[2] << 16) + ((
ub8
)
k
[3] << 24) + ((
ub8
)
k
[4] << 32) + ((
ub8
)
k
[5] << 40) +
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((
ub8
)
k
[6] << 48) + ((
ub8
)
k
[7] << 56));
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b
+= (
k
[8] + ((
ub8
)
k
[9] << 8) + ((
ub8
)
k
[10] << 16) + ((
ub8
)
k
[11] << 24) + ((
ub8
)
k
[12] << 32) +
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((
ub8
)
k
[13] << 40) + ((
ub8
)
k
[14] << 48) + ((
ub8
)
k
[15] << 56));
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c
+= (
k
[16] + ((
ub8
)
k
[17] << 8) + ((
ub8
)
k
[18] << 16) + ((
ub8
)
k
[19] << 24) + ((
ub8
)
k
[20] << 32) +
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((
ub8
)
k
[21] << 40) + ((
ub8
)
k
[22] << 48) + ((
ub8
)
k
[23] << 56));
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mix64
(
a
,
b
,
c
);
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k
+= 24;
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len -= 24;
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}
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}
else
{
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while
(len >= 24)
/* aligned */
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{
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a
+= *(
ub8
*)(
k
+ 0);
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b
+= *(
ub8
*)(
k
+ 8);
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c
+= *(
ub8
*)(
k
+ 16);
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mix64
(
a
,
b
,
c
);
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k
+= 24;
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len -= 24;
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}
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}
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/*------------------------------------- handle the last 23 bytes */
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c
+= length;
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switch
(len)
/* all the case statements fall through */
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{
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case
23:
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c
+= ((
ub8
)
k
[22] << 56);
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[[fallthrough]];
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case
22:
113
c
+= ((
ub8
)
k
[21] << 48);
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[[fallthrough]];
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case
21:
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c
+= ((
ub8
)
k
[20] << 40);
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[[fallthrough]];
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case
20:
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c
+= ((
ub8
)
k
[19] << 32);
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[[fallthrough]];
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case
19:
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c
+= ((
ub8
)
k
[18] << 24);
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[[fallthrough]];
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case
18:
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c
+= ((
ub8
)
k
[17] << 16);
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[[fallthrough]];
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case
17:
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c
+= ((
ub8
)
k
[16] << 8);
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[[fallthrough]];
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/* the first byte of c is reserved for the length */
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case
16:
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b
+= ((
ub8
)
k
[15] << 56);
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[[fallthrough]];
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case
15:
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b
+= ((
ub8
)
k
[14] << 48);
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[[fallthrough]];
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case
14:
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b
+= ((
ub8
)
k
[13] << 40);
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[[fallthrough]];
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case
13:
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b
+= ((
ub8
)
k
[12] << 32);
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[[fallthrough]];
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case
12:
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b
+= ((
ub8
)
k
[11] << 24);
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[[fallthrough]];
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case
11:
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b
+= ((
ub8
)
k
[10] << 16);
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[[fallthrough]];
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case
10:
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b
+= ((
ub8
)
k
[9] << 8);
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[[fallthrough]];
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case
9:
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b
+= ((
ub8
)
k
[8]);
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[[fallthrough]];
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case
8:
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a
+= ((
ub8
)
k
[7] << 56);
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[[fallthrough]];
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case
7:
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a
+= ((
ub8
)
k
[6] << 48);
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[[fallthrough]];
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case
6:
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a
+= ((
ub8
)
k
[5] << 40);
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[[fallthrough]];
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case
5:
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a
+= ((
ub8
)
k
[4] << 32);
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[[fallthrough]];
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case
4:
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a
+= ((
ub8
)
k
[3] << 24);
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[[fallthrough]];
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case
3:
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a
+= ((
ub8
)
k
[2] << 16);
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[[fallthrough]];
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case
2:
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a
+= ((
ub8
)
k
[1] << 8);
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[[fallthrough]];
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case
1:
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a
+= ((
ub8
)
k
[0]);
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/* case 0: nothing left to add */
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}
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mix64
(
a
,
b
,
c
);
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/*-------------------------------------------- report the result */
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return
c
;
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}
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}
// namespace cond
mix64
#define mix64(a, b, c)
Definition:
hash64.cc:22
ub8
unsigned long long ub8
Definition:
hash64.cc:62
DummyCfis.c
c
Definition:
DummyCfis.py:86
cond::hash64
unsigned long long hash64(unsigned char *k, unsigned long long length, unsigned long long level)
Definition:
hash64.cc:68
hash64.h
L1DTConfigBti_cff.LL
LL
Definition:
L1DTConfigBti_cff.py:25
gammaJetAnalysis_CHSJECs_cff.level
level
Definition:
gammaJetAnalysis_CHSJECs_cff.py:6
b
double b
Definition:
hdecay.h:120
cond
a
double a
Definition:
hdecay.h:121
ub4
unsigned long int ub4
Definition:
hash64.cc:63
isotrackApplyRegressor.k
k
Definition:
isotrackApplyRegressor.py:90
ub1
unsigned char ub1
Definition:
hash64.cc:64
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