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ruanhaishen
redis
Commits
c4705381
Commit
c4705381
authored
Aug 13, 2010
by
Pieter Noordhuis
Browse files
Make ziplist schema more efficient for strings with length > 15
parent
cbce5171
Changes
1
Hide whitespace changes
Inline
Side-by-side
src/ziplist.c
View file @
c4705381
/* Memory layout of a ziplist, containing "foo", "bar", "quux":
/* The ziplist is a specially encoded dually linked list that is designed
* <zlbytes><zllen><len>"foo"<len>"bar"<len>"quux"
* to be very memory efficient. It stores both strings and integer values,
* where integers are encoded as actual integers instead of a series of
* characters. It allows push and pop operations on either side of the list
* in O(1) time. However, because every operation requires a reallocation of
* the memory used by the ziplist, the actual complexity is related to the
* amount of memory used by the ziplist.
*
*
* <zlbytes> is an unsigned integer to hold the number of bytes that
* ----------------------------------------------------------------------------
* the ziplist occupies. This is stored to not have to traverse the ziplist
* to know the new length when pushing.
*
*
*
<zllen> is the number of items in the ziplist. When this value is
*
ZIPLIST OVERALL LAYOUT:
*
greater than 254, we need to traverse the entire list to know
*
The general layout of the ziplist is as follows:
*
how many items it holds.
*
<zlbytes><zltail><zllen><entry><entry><zlend>
*
*
* <len> is the number of bytes occupied by a single entry. When this
* <zlbytes> is an unsigned integer to hold the number of bytes that the
* number is greater than 253, the length will occupy 5 bytes, where
* ziplist occupies. This value needs to be stored to be able to resize the
* the extra bytes contain an unsigned integer to hold the length.
* entire structure without the need to traverse it first.
*
* <zltail> is the offset to the last entry in the list. This allows a pop
* operation on the far side of the list without the need for full traversal.
*
* <zllen> is the number of entries.When this value is larger than 2**16-2,
* we need to traverse the entire list to know how many items it holds.
*
* <zlend> is a single byte special value, equal to 255, which indicates the
* end of the list.
*
* ZIPLIST ENTRIES:
* Every entry in the ziplist is prefixed by a header that contains two pieces
* of information. First, the length of the previous entry is stored to be
* able to traverse the list from back to front. Second, the encoding with an
* optional string length of the entry itself is stored.
*
* The length of the previous entry is encoded in the following way:
* If this length is smaller than 254 bytes, it will only consume a single
* byte that takes the length as value. When the length is greater than or
* equal to 254, it will consume 5 bytes. The first byte is set to 254 to
* indicate a larger value is following. The remaining 4 bytes take the
* length of the previous entry as value.
*
* The other header field of the entry itself depends on the contents of the
* entry. When the entry is a string, the first 2 bits of this header will hold
* the type of encoding used to store the length of the string, followed by the
* actual length of the string. When the entry is an integer the first 2 bits
* are both set to 1. The following 2 bits are used to specify what kind of
* integer will be stored after this header. An overview of the different
* types and encodings is as follows:
*
* |00pppppp| - 1 byte
* String value with length less than or equal to 63 bytes (6 bits).
* |01pppppp|qqqqqqqq| - 2 bytes
* String value with length less than or equal to 16383 bytes (14 bits).
* |10______|qqqqqqqq|rrrrrrrr|ssssssss|tttttttt| - 5 bytes
* String value with length greater than or equal to 16384 bytes.
* |1100____| - 1 byte
* Integer encoded as int16_t (2 bytes).
* |1101____| - 1 byte
* Integer encoded as int32_t (4 bytes).
* |1110____| - 1 byte
* Integer encoded as int64_t (8 bytes).
*/
*/
#include <stdio.h>
#include <stdio.h>
...
@@ -25,25 +71,20 @@
...
@@ -25,25 +71,20 @@
int
ll2string
(
char
*
s
,
size_t
len
,
long
long
value
);
int
ll2string
(
char
*
s
,
size_t
len
,
long
long
value
);
/* Important note: the ZIP_END value is used to depict the end of the
* ziplist structure. When a pointer contains an entry, the first couple
* of bytes contain the encoded length of the previous entry. This length
* is encoded as ZIP_ENC_RAW length, so the first two bits will contain 00
* and the byte will therefore never have a value of 255. */
#define ZIP_END 255
#define ZIP_END 255
#define ZIP_BIGLEN 254
#define ZIP_BIGLEN 254
/* Entry encoding */
/* Different encoding/length possibilities */
#define ZIP_ENC_RAW 0
#define ZIP_STR_06B (0 << 6)
#define ZIP_ENC_INT16 1
#define ZIP_STR_14B (1 << 6)
#define ZIP_ENC_INT32 2
#define ZIP_STR_32B (2 << 6)
#define ZIP_ENC_INT64 3
#define ZIP_INT_16B (0xc0 | 0<<4)
#define ZIP_ENCODING(p) ((p)[0] >> 6)
#define ZIP_INT_32B (0xc0 | 1<<4)
#define ZIP_INT_64B (0xc0 | 2<<4)
/* Length encoding for raw entries */
/* Macro's to determine type */
#define ZIP_LEN_INLINE 0
#define ZIP_IS_STR(enc) (((enc) & 0xc0) < 0xc0)
#define ZIP_LEN_UINT16 1
#define ZIP_IS_INT(enc) (!ZIP_IS_STR(enc) && ((enc) & 0x30) < 0x30)
#define ZIP_LEN_UINT32 2
/* Utility macros */
/* Utility macros */
#define ZIPLIST_BYTES(zl) (*((uint32_t*)(zl)))
#define ZIPLIST_BYTES(zl) (*((uint32_t*)(zl)))
...
@@ -67,14 +108,25 @@ typedef struct zlentry {
...
@@ -67,14 +108,25 @@ typedef struct zlentry {
unsigned
char
*
p
;
unsigned
char
*
p
;
}
zlentry
;
}
zlentry
;
/* Return the encoding pointer to by 'p'. */
static
unsigned
int
zipEntryEncoding
(
unsigned
char
*
p
)
{
/* String encoding: 2 MSBs */
unsigned
char
b
=
p
[
0
]
&
0xc0
;
if
(
b
<
0xc0
)
{
return
b
;
}
else
{
/* Integer encoding: 4 MSBs */
return
p
[
0
]
&
0xf0
;
}
assert
(
NULL
);
}
/* Return bytes needed to store integer encoded by 'encoding' */
/* Return bytes needed to store integer encoded by 'encoding' */
static
unsigned
int
zipEncodingSize
(
unsigned
char
encoding
)
{
static
unsigned
int
zipIntSize
(
unsigned
char
encoding
)
{
if
(
encoding
==
ZIP_ENC_INT16
)
{
switch
(
encoding
)
{
return
sizeof
(
int16_t
);
case
ZIP_INT_16B
:
return
sizeof
(
int16_t
);
}
else
if
(
encoding
==
ZIP_ENC_INT32
)
{
case
ZIP_INT_32B
:
return
sizeof
(
int32_t
);
return
sizeof
(
int32_t
);
case
ZIP_INT_64B
:
return
sizeof
(
int64_t
);
}
else
if
(
encoding
==
ZIP_ENC_INT64
)
{
return
sizeof
(
int64_t
);
}
}
assert
(
NULL
);
assert
(
NULL
);
}
}
...
@@ -82,23 +134,28 @@ static unsigned int zipEncodingSize(unsigned char encoding) {
...
@@ -82,23 +134,28 @@ static unsigned int zipEncodingSize(unsigned char encoding) {
/* Decode the encoded length pointed by 'p'. If a pointer to 'lensize' is
/* Decode the encoded length pointed by 'p'. If a pointer to 'lensize' is
* provided, it is set to the number of bytes required to encode the length. */
* provided, it is set to the number of bytes required to encode the length. */
static
unsigned
int
zipDecodeLength
(
unsigned
char
*
p
,
unsigned
int
*
lensize
)
{
static
unsigned
int
zipDecodeLength
(
unsigned
char
*
p
,
unsigned
int
*
lensize
)
{
unsigned
char
encoding
=
ZIP_ENCODING
(
p
),
lenenc
;
unsigned
char
encoding
=
zipEntryEncoding
(
p
)
;
unsigned
int
len
;
unsigned
int
len
;
if
(
encoding
==
ZIP_ENC_RAW
)
{
if
(
ZIP_IS_STR
(
encoding
)
)
{
lenenc
=
(
p
[
0
]
>>
4
)
&
0x3
;
switch
(
encoding
)
{
if
(
lenenc
==
ZIP_LEN_INLINE
)
{
case
ZIP_STR_06B
:
len
=
p
[
0
]
&
0xf
;
len
=
p
[
0
]
&
0x
3
f
;
if
(
lensize
)
*
lensize
=
1
;
if
(
lensize
)
*
lensize
=
1
;
}
else
if
(
lenenc
==
ZIP_LEN_UINT16
)
{
break
;
len
=
p
[
1
]
|
(
p
[
2
]
<<
8
);
case
ZIP_STR_14B
:
if
(
lensize
)
*
lensize
=
3
;
len
=
((
p
[
0
]
&
0x3f
)
<<
6
)
|
p
[
1
];
}
else
{
if
(
lensize
)
*
lensize
=
2
;
len
=
p
[
1
]
|
(
p
[
2
]
<<
8
)
|
(
p
[
3
]
<<
16
)
|
(
p
[
4
]
<<
24
);
break
;
case
ZIP_STR_32B
:
len
=
(
p
[
1
]
<<
24
)
|
(
p
[
2
]
<<
16
)
|
(
p
[
3
]
<<
8
)
|
p
[
4
];
if
(
lensize
)
*
lensize
=
5
;
if
(
lensize
)
*
lensize
=
5
;
break
;
default:
assert
(
NULL
);
}
}
}
else
{
}
else
{
len
=
zip
Encoding
Size
(
encoding
);
len
=
zip
Int
Size
(
encoding
);
if
(
lensize
)
*
lensize
=
1
;
if
(
lensize
)
*
lensize
=
1
;
}
}
return
len
;
return
len
;
...
@@ -106,34 +163,36 @@ static unsigned int zipDecodeLength(unsigned char *p, unsigned int *lensize) {
...
@@ -106,34 +163,36 @@ static unsigned int zipDecodeLength(unsigned char *p, unsigned int *lensize) {
/* Encode the length 'l' writing it in 'p'. If p is NULL it just returns
/* Encode the length 'l' writing it in 'p'. If p is NULL it just returns
* the amount of bytes required to encode such a length. */
* the amount of bytes required to encode such a length. */
static
unsigned
int
zipEncodeLength
(
unsigned
char
*
p
,
char
encoding
,
unsigned
int
rawlen
)
{
static
unsigned
int
zipEncodeLength
(
unsigned
char
*
p
,
unsigned
char
encoding
,
unsigned
int
rawlen
)
{
unsigned
char
len
=
1
,
lenenc
,
buf
[
5
];
unsigned
char
len
=
1
,
buf
[
5
];
if
(
encoding
==
ZIP_ENC_RAW
)
{
if
(
rawlen
<=
0xf
)
{
if
(
ZIP_IS_STR
(
encoding
))
{
/* Although encoding is given it may not be set for strings,
* so we determine it here using the raw length. */
if
(
rawlen
<=
0x3f
)
{
if
(
!
p
)
return
len
;
if
(
!
p
)
return
len
;
lenenc
=
ZIP_LEN_INLINE
;
buf
[
0
]
=
ZIP_STR_06B
|
rawlen
;
buf
[
0
]
=
rawlen
;
}
else
if
(
rawlen
<=
0x3fff
)
{
}
else
if
(
rawlen
<=
0xffff
)
{
len
+=
1
;
len
+=
2
;
if
(
!
p
)
return
len
;
if
(
!
p
)
return
len
;
lenenc
=
ZIP_LEN_UINT16
;
buf
[
0
]
=
ZIP_STR_14B
|
((
rawlen
>>
8
)
&
0x3f
);
buf
[
1
]
=
(
rawlen
)
&
0xff
;
buf
[
1
]
=
rawlen
&
0xff
;
buf
[
2
]
=
(
rawlen
>>
8
)
&
0xff
;
}
else
{
}
else
{
len
+=
4
;
len
+=
4
;
if
(
!
p
)
return
len
;
if
(
!
p
)
return
len
;
lenenc
=
ZIP_
LEN_UINT
32
;
buf
[
0
]
=
ZIP_
STR_
32
B
;
buf
[
1
]
=
(
rawlen
)
&
0xff
;
buf
[
1
]
=
(
rawlen
>>
24
)
&
0xff
;
buf
[
2
]
=
(
rawlen
>>
8
)
&
0xff
;
buf
[
2
]
=
(
rawlen
>>
16
)
&
0xff
;
buf
[
3
]
=
(
rawlen
>>
16
)
&
0xff
;
buf
[
3
]
=
(
rawlen
>>
8
)
&
0xff
;
buf
[
4
]
=
(
rawlen
>>
24
)
&
0xff
;
buf
[
4
]
=
rawlen
&
0xff
;
}
}
buf
[
0
]
=
(
lenenc
<<
4
)
|
(
buf
[
0
]
&
0xf
);
}
else
{
/* Implies integer encoding, so length is always 1. */
if
(
!
p
)
return
len
;
buf
[
0
]
=
encoding
;
}
}
if
(
!
p
)
return
len
;
/* Apparently we need to store the length in 'p' */
/* Store this length at p */
buf
[
0
]
=
(
encoding
<<
6
)
|
(
buf
[
0
]
&
0x3f
);
memcpy
(
p
,
buf
,
len
);
memcpy
(
p
,
buf
,
len
);
return
len
;
return
len
;
}
}
...
@@ -198,11 +257,11 @@ static int zipTryEncoding(unsigned char *entry, unsigned int entrylen, long long
...
@@ -198,11 +257,11 @@ static int zipTryEncoding(unsigned char *entry, unsigned int entrylen, long long
/* Great, the string can be encoded. Check what's the smallest
/* Great, the string can be encoded. Check what's the smallest
* of our encoding types that can hold this value. */
* of our encoding types that can hold this value. */
if
(
value
>=
INT16_MIN
&&
value
<=
INT16_MAX
)
{
if
(
value
>=
INT16_MIN
&&
value
<=
INT16_MAX
)
{
*
encoding
=
ZIP_
ENC_
INT16
;
*
encoding
=
ZIP_INT
_
16
B
;
}
else
if
(
value
>=
INT32_MIN
&&
value
<=
INT32_MAX
)
{
}
else
if
(
value
>=
INT32_MIN
&&
value
<=
INT32_MAX
)
{
*
encoding
=
ZIP_
ENC_
INT32
;
*
encoding
=
ZIP_INT
_
32
B
;
}
else
{
}
else
{
*
encoding
=
ZIP_
ENC_
INT64
;
*
encoding
=
ZIP_INT
_
64
B
;
}
}
*
v
=
value
;
*
v
=
value
;
return
1
;
return
1
;
...
@@ -215,13 +274,13 @@ static void zipSaveInteger(unsigned char *p, int64_t value, unsigned char encodi
...
@@ -215,13 +274,13 @@ static void zipSaveInteger(unsigned char *p, int64_t value, unsigned char encodi
int16_t
i16
;
int16_t
i16
;
int32_t
i32
;
int32_t
i32
;
int64_t
i64
;
int64_t
i64
;
if
(
encoding
==
ZIP_
ENC_
INT16
)
{
if
(
encoding
==
ZIP_INT
_
16
B
)
{
i16
=
value
;
i16
=
value
;
memcpy
(
p
,
&
i16
,
sizeof
(
i16
));
memcpy
(
p
,
&
i16
,
sizeof
(
i16
));
}
else
if
(
encoding
==
ZIP_
ENC_
INT32
)
{
}
else
if
(
encoding
==
ZIP_INT
_
32
B
)
{
i32
=
value
;
i32
=
value
;
memcpy
(
p
,
&
i32
,
sizeof
(
i32
));
memcpy
(
p
,
&
i32
,
sizeof
(
i32
));
}
else
if
(
encoding
==
ZIP_
ENC_
INT64
)
{
}
else
if
(
encoding
==
ZIP_INT
_
64
B
)
{
i64
=
value
;
i64
=
value
;
memcpy
(
p
,
&
i64
,
sizeof
(
i64
));
memcpy
(
p
,
&
i64
,
sizeof
(
i64
));
}
else
{
}
else
{
...
@@ -234,13 +293,13 @@ static int64_t zipLoadInteger(unsigned char *p, unsigned char encoding) {
...
@@ -234,13 +293,13 @@ static int64_t zipLoadInteger(unsigned char *p, unsigned char encoding) {
int16_t
i16
;
int16_t
i16
;
int32_t
i32
;
int32_t
i32
;
int64_t
i64
,
ret
;
int64_t
i64
,
ret
;
if
(
encoding
==
ZIP_
ENC_
INT16
)
{
if
(
encoding
==
ZIP_INT
_
16
B
)
{
memcpy
(
&
i16
,
p
,
sizeof
(
i16
));
memcpy
(
&
i16
,
p
,
sizeof
(
i16
));
ret
=
i16
;
ret
=
i16
;
}
else
if
(
encoding
==
ZIP_
ENC_
INT32
)
{
}
else
if
(
encoding
==
ZIP_INT
_
32
B
)
{
memcpy
(
&
i32
,
p
,
sizeof
(
i32
));
memcpy
(
&
i32
,
p
,
sizeof
(
i32
));
ret
=
i32
;
ret
=
i32
;
}
else
if
(
encoding
==
ZIP_
ENC_
INT64
)
{
}
else
if
(
encoding
==
ZIP_INT
_
64
B
)
{
memcpy
(
&
i64
,
p
,
sizeof
(
i64
));
memcpy
(
&
i64
,
p
,
sizeof
(
i64
));
ret
=
i64
;
ret
=
i64
;
}
else
{
}
else
{
...
@@ -255,7 +314,7 @@ static zlentry zipEntry(unsigned char *p) {
...
@@ -255,7 +314,7 @@ static zlentry zipEntry(unsigned char *p) {
e
.
prevrawlen
=
zipPrevDecodeLength
(
p
,
&
e
.
prevrawlensize
);
e
.
prevrawlen
=
zipPrevDecodeLength
(
p
,
&
e
.
prevrawlensize
);
e
.
len
=
zipDecodeLength
(
p
+
e
.
prevrawlensize
,
&
e
.
lensize
);
e
.
len
=
zipDecodeLength
(
p
+
e
.
prevrawlensize
,
&
e
.
lensize
);
e
.
headersize
=
e
.
prevrawlensize
+
e
.
lensize
;
e
.
headersize
=
e
.
prevrawlensize
+
e
.
lensize
;
e
.
encoding
=
ZIP_ENCODING
(
p
+
e
.
prevrawlensize
);
e
.
encoding
=
zipEntryEncoding
(
p
+
e
.
prevrawlensize
);
e
.
p
=
p
;
e
.
p
=
p
;
return
e
;
return
e
;
}
}
...
@@ -327,7 +386,7 @@ static unsigned char *__ziplistInsert(unsigned char *zl, unsigned char *p, unsig
...
@@ -327,7 +386,7 @@ static unsigned char *__ziplistInsert(unsigned char *zl, unsigned char *p, unsig
unsigned
int
curlen
=
ZIPLIST_BYTES
(
zl
),
reqlen
,
prevlen
=
0
;
unsigned
int
curlen
=
ZIPLIST_BYTES
(
zl
),
reqlen
,
prevlen
=
0
;
unsigned
int
offset
,
nextdiff
=
0
;
unsigned
int
offset
,
nextdiff
=
0
;
unsigned
char
*
tail
;
unsigned
char
*
tail
;
unsigned
char
encoding
=
ZIP_ENC_RAW
;
unsigned
char
encoding
=
0
;
long
long
value
;
long
long
value
;
zlentry
entry
;
zlentry
entry
;
...
@@ -344,11 +403,13 @@ static unsigned char *__ziplistInsert(unsigned char *zl, unsigned char *p, unsig
...
@@ -344,11 +403,13 @@ static unsigned char *__ziplistInsert(unsigned char *zl, unsigned char *p, unsig
/* See if the entry can be encoded */
/* See if the entry can be encoded */
if
(
zipTryEncoding
(
s
,
slen
,
&
value
,
&
encoding
))
{
if
(
zipTryEncoding
(
s
,
slen
,
&
value
,
&
encoding
))
{
reqlen
=
zipEncodingSize
(
encoding
);
/* 'encoding' is set to the appropriate integer encoding */
reqlen
=
zipIntSize
(
encoding
);
}
else
{
}
else
{
/* 'encoding' is untouched, however zipEncodeLength will use the
* string length to figure out how to encode it. */
reqlen
=
slen
;
reqlen
=
slen
;
}
}
/* We need space for both the length of the previous entry and
/* We need space for both the length of the previous entry and
* the length of the payload. */
* the length of the payload. */
reqlen
+=
zipPrevEncodeLength
(
NULL
,
prevlen
);
reqlen
+=
zipPrevEncodeLength
(
NULL
,
prevlen
);
...
@@ -380,10 +441,10 @@ static unsigned char *__ziplistInsert(unsigned char *zl, unsigned char *p, unsig
...
@@ -380,10 +441,10 @@ static unsigned char *__ziplistInsert(unsigned char *zl, unsigned char *p, unsig
/* Write the entry */
/* Write the entry */
p
+=
zipPrevEncodeLength
(
p
,
prevlen
);
p
+=
zipPrevEncodeLength
(
p
,
prevlen
);
p
+=
zipEncodeLength
(
p
,
encoding
,
slen
);
p
+=
zipEncodeLength
(
p
,
encoding
,
slen
);
if
(
encoding
!=
ZIP_ENC_RAW
)
{
if
(
ZIP_IS_STR
(
encoding
))
{
zipSaveInteger
(
p
,
value
,
encoding
);
}
else
{
memcpy
(
p
,
s
,
slen
);
memcpy
(
p
,
s
,
slen
);
}
else
{
zipSaveInteger
(
p
,
value
,
encoding
);
}
}
ZIPLIST_INCR_LENGTH
(
zl
,
1
);
ZIPLIST_INCR_LENGTH
(
zl
,
1
);
return
zl
;
return
zl
;
...
@@ -463,7 +524,7 @@ unsigned int ziplistGet(unsigned char *p, unsigned char **sstr, unsigned int *sl
...
@@ -463,7 +524,7 @@ unsigned int ziplistGet(unsigned char *p, unsigned char **sstr, unsigned int *sl
if
(
sstr
)
*
sstr
=
NULL
;
if
(
sstr
)
*
sstr
=
NULL
;
entry
=
zipEntry
(
p
);
entry
=
zipEntry
(
p
);
if
(
entry
.
encoding
==
ZIP_ENC_RAW
)
{
if
(
ZIP_IS_STR
(
entry
.
encoding
)
)
{
if
(
sstr
)
{
if
(
sstr
)
{
*
slen
=
entry
.
len
;
*
slen
=
entry
.
len
;
*
sstr
=
p
+
entry
.
headersize
;
*
sstr
=
p
+
entry
.
headersize
;
...
@@ -510,7 +571,7 @@ unsigned int ziplistCompare(unsigned char *p, unsigned char *sstr, unsigned int
...
@@ -510,7 +571,7 @@ unsigned int ziplistCompare(unsigned char *p, unsigned char *sstr, unsigned int
if
(
p
[
0
]
==
ZIP_END
)
return
0
;
if
(
p
[
0
]
==
ZIP_END
)
return
0
;
entry
=
zipEntry
(
p
);
entry
=
zipEntry
(
p
);
if
(
entry
.
encoding
==
ZIP_ENC_RAW
)
{
if
(
ZIP_IS_STR
(
entry
.
encoding
)
)
{
/* Raw compare */
/* Raw compare */
if
(
entry
.
len
==
slen
)
{
if
(
entry
.
len
==
slen
)
{
return
memcmp
(
p
+
entry
.
headersize
,
sstr
,
slen
)
==
0
;
return
memcmp
(
p
+
entry
.
headersize
,
sstr
,
slen
)
==
0
;
...
@@ -562,7 +623,7 @@ void ziplistRepr(unsigned char *zl) {
...
@@ -562,7 +623,7 @@ void ziplistRepr(unsigned char *zl) {
entry
=
zipEntry
(
p
);
entry
=
zipEntry
(
p
);
printf
(
"{offset %ld, header %u, payload %u} "
,
p
-
zl
,
entry
.
headersize
,
entry
.
len
);
printf
(
"{offset %ld, header %u, payload %u} "
,
p
-
zl
,
entry
.
headersize
,
entry
.
len
);
p
+=
entry
.
headersize
;
p
+=
entry
.
headersize
;
if
(
entry
.
encoding
==
ZIP_ENC_RAW
)
{
if
(
ZIP_IS_STR
(
entry
.
encoding
)
)
{
fwrite
(
p
,
entry
.
len
,
1
,
stdout
);
fwrite
(
p
,
entry
.
len
,
1
,
stdout
);
}
else
{
}
else
{
printf
(
"%lld"
,
(
long
long
)
zipLoadInteger
(
p
,
entry
.
encoding
));
printf
(
"%lld"
,
(
long
long
)
zipLoadInteger
(
p
,
entry
.
encoding
));
...
...
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