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/* stb_ds.h - v0.64 - public domain data structures - Sean Barrett 2019
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This is a single - header - file library that provides easy - to - use
dynamic arrays and hash tables for C ( also works in C + + ) .
For a gentle introduction :
http : //nothings.org/stb_ds
To use this library , do this in * one * C or C + + file :
# define STB_DS_IMPLEMENTATION
# include "stb_ds.h"
TABLE OF CONTENTS
Table of Contents
Compile - time options
License
Documentation
Notes
Notes - Dynamic arrays
Notes - Hash maps
Credits
COMPILE - TIME OPTIONS
# define STBDS_NO_SHORT_NAMES
This flag needs to be set globally .
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By default stb_ds exposes shorter function names that are not qualified
with the " stbds_ " prefix . If these names conflict with the names in your
code , define this flag .
# define STBDS_SIPHASH_2_4
This flag only needs to be set in the file containing # define STB_DS_IMPLEMENTATION .
By default stb_ds . h hashes using a weaker variant of SipHash and a custom hash for
4 - and 8 - byte keys . On 64 - bit platforms , you can define the above flag to force
stb_ds . h to use specification - compliant SipHash - 2 - 4 for all keys . Doing so makes
hash table insertion about 20 % slower on 4 - and 8 - byte keys , 5 % slower on
64 - byte keys , and 10 % slower on 256 - byte keys on my test computer .
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# define STBDS_REALLOC(context,ptr,size) better_realloc
# define STBDS_FREE(context,ptr) better_free
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These defines only need to be set in the file containing # define STB_DS_IMPLEMENTATION .
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By default stb_ds uses stdlib realloc ( ) and free ( ) for memory management . You can
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substitute your own functions instead by defining these symbols . You must either
define both , or neither . Note that at the moment , ' context ' will always be NULL .
@ TODO add an array / hash initialization function that takes a memory context pointer .
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# define STBDS_UNIT_TESTS
Defines a function stbds_unit_tests ( ) that checks the functioning of the data structures .
Note that on older versions of gcc ( e . g . 5. x . x ) you may need to build with ' - std = c + + 0 x '
( or equivalentally ' - std = c + + 11 ' ) when using anonymous structures as seen on the web
page or in STBDS_UNIT_TESTS .
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LICENSE
Placed in the public domain and also MIT licensed .
See end of file for detailed license information .
DOCUMENTATION
Dynamic Arrays
Non - function interface :
Declare an empty dynamic array of type T
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T * foo = NULL ;
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Access the i ' th item of a dynamic array ' foo ' of type T , T * foo :
foo [ i ]
Functions ( actually macros )
arrfree :
void arrfree ( T * ) ;
Frees the array .
arrlen :
ptrdiff_t arrlen ( T * ) ;
Returns the number of elements in the array .
arrlenu :
size_t arrlenu ( T * ) ;
Returns the number of elements in the array as an unsigned type .
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arrpop :
T arrpop ( T * a )
Removes the final element of the array and returns it .
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arrput :
T arrput ( T * a , T b ) ;
Appends the item b to the end of array a . Returns b .
arrins :
T arrins ( T * a , int p , T b ) ;
Inserts the item b into the middle of array a , into a [ p ] ,
moving the rest of the array over . Returns b .
arrinsn :
void arrins ( T * a , int p , int n ) ;
Inserts n uninitialized items into array a starting at a [ p ] ,
moving the rest of the array over .
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arraddnptr :
T * arraddnptr ( T * a , int n )
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Appends n uninitialized items onto array at the end .
Returns a pointer to the first uninitialized item added .
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arraddnindex :
size_t arraddnindex ( T * a , int n )
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Appends n uninitialized items onto array at the end .
Returns the index of the first uninitialized item added .
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arrdel :
void arrdel ( T * a , int p ) ;
Deletes the element at a [ p ] , moving the rest of the array over .
arrdeln :
void arrdel ( T * a , int p , int n ) ;
Deletes n elements starting at a [ p ] , moving the rest of the array over .
arrdelswap :
void arrdelswap ( T * a , int p ) ;
Deletes the element at a [ p ] , replacing it with the element from
the end of the array . O ( 1 ) performance .
arrsetlen :
void arrsetlen ( T * a , int n ) ;
Changes the length of the array to n . Allocates uninitialized
slots at the end if necessary .
arrsetcap :
size_t arrsetcap ( T * a , int n ) ;
Sets the length of allocated storage to at least n . It will not
change the length of the array .
arrcap :
size_t arrcap ( T * a ) ;
Returns the number of total elements the array can contain without
needing to be reallocated .
Hash maps & String hash maps
Given T is a structure type : struct { TK key ; TV value ; } . Note that some
functions do not require TV value and can have other fields . For string
hash maps , TK must be ' char * ' .
Special interface :
stbds_rand_seed :
void stbds_rand_seed ( size_t seed ) ;
For security against adversarially chosen data , you should seed the
library with a strong random number . Or at least seed it with time ( ) .
stbds_hash_string :
size_t stbds_hash_string ( char * str , size_t seed ) ;
Returns a hash value for a string .
stbds_hash_bytes :
size_t stbds_hash_bytes ( void * p , size_t len , size_t seed ) ;
These functions hash an arbitrary number of bytes . The function
uses a custom hash for 4 - and 8 - byte data , and a weakened version
of SipHash for everything else . On 64 - bit platforms you can get
specification - compliant SipHash - 2 - 4 on all data by defining
STBDS_SIPHASH_2_4 , at a significant cost in speed .
Non - function interface :
Declare an empty hash map of type T
T * foo = NULL ;
Access the i ' th entry in a hash table T * foo :
foo [ i ]
Function interface ( actually macros ) :
hmfree
shfree
void hmfree ( T * ) ;
void shfree ( T * ) ;
Frees the hashmap and sets the pointer to NULL .
hmlen
shlen
ptrdiff_t hmlen ( T * )
ptrdiff_t shlen ( T * )
Returns the number of elements in the hashmap .
hmlenu
shlenu
size_t hmlenu ( T * )
size_t shlenu ( T * )
Returns the number of elements in the hashmap .
hmgeti
shgeti
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hmgeti_ts
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ptrdiff_t hmgeti ( T * , TK key )
ptrdiff_t shgeti ( T * , char * key )
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ptrdiff_t hmgeti_ts ( T * , TK key , ptrdiff_t tempvar )
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Returns the index in the hashmap which has the key ' key ' , or - 1
if the key is not present .
hmget
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hmget_ts
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shget
TV hmget ( T * , TK key )
TV shget ( T * , char * key )
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TV hmget_ts ( T * , TK key , ptrdiff_t tempvar )
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Returns the value corresponding to ' key ' in the hashmap .
The structure must have a ' value ' field
hmgets
shgets
T hmgets ( T * , TK key )
T shgets ( T * , char * key )
Returns the structure corresponding to ' key ' in the hashmap .
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hmgetp
shgetp
hmgetp_ts
hmgetp_null
shgetp_null
T * hmgetp ( T * , TK key )
T * shgetp ( T * , char * key )
T * hmgetp_ts ( T * , TK key , ptrdiff_t tempvar )
T * hmgetp_null ( T * , TK key )
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T * shgetp_null ( T * , char * key )
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Returns a pointer to the structure corresponding to ' key ' in
the hashmap . Functions ending in " _null " return NULL if the key
is not present in the hashmap ; the others return a pointer to a
structure holding the default value ( but not the searched - for key ) .
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hmdefault
shdefault
TV hmdefault ( T * , TV value )
TV shdefault ( T * , TV value )
Sets the default value for the hashmap , the value which will be
returned by hmget / shget if the key is not present .
hmdefaults
shdefaults
TV hmdefaults ( T * , T item )
TV shdefaults ( T * , T item )
Sets the default struct for the hashmap , the contents which will be
returned by hmgets / shgets if the key is not present .
hmput
shput
TV hmput ( T * , TK key , TV value )
TV shput ( T * , char * key , TV value )
Inserts a < key , value > pair into the hashmap . If the key is already
present in the hashmap , updates its value .
hmputs
shputs
T hmputs ( T * , T item )
T shputs ( T * , T item )
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Inserts a struct with T . key into the hashmap . If the struct is already
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present in the hashmap , updates it .
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hmdel
shdel
int hmdel ( T * , TK key )
int shdel ( T * , char * key )
If ' key ' is in the hashmap , deletes its entry and returns 1.
Otherwise returns 0.
Function interface ( actually macros ) for strings only :
sh_new_strdup
void sh_new_strdup ( T * ) ;
Overwrites the existing pointer with a newly allocated
string hashmap which will automatically allocate and free
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each string key using realloc / free
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sh_new_arena
void sh_new_arena ( T * ) ;
Overwrites the existing pointer with a newly allocated
string hashmap which will automatically allocate each string
key to a string arena . Every string key ever used by this
hash table remains in the arena until the arena is freed .
Additionally , any key which is deleted and reinserted will
be allocated multiple times in the string arena .
NOTES
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* These data structures are realloc ' d when they grow , and the macro
" functions " write to the provided pointer . This means : ( a ) the pointer
must be an lvalue , and ( b ) the pointer to the data structure is not
stable , and you must maintain it the same as you would a realloc ' d
pointer . For example , if you pass a pointer to a dynamic array to a
function which updates it , the function must return back the new
pointer to the caller . This is the price of trying to do this in C .
* The following are the only functions that are thread - safe on a single data
structure , i . e . can be run in multiple threads simultaneously on the same
data structure
hmlen shlen
hmlenu shlenu
hmget_ts shget_ts
hmgeti_ts shgeti_ts
hmgets_ts shgets_ts
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* You iterate over the contents of a dynamic array and a hashmap in exactly
the same way , using arrlen / hmlen / shlen :
for ( i = 0 ; i < arrlen ( foo ) ; + + i )
. . . foo [ i ] . . .
* All operations except arrins / arrdel are O ( 1 ) amortized , but individual
operations can be slow , so these data structures may not be suitable
for real time use . Dynamic arrays double in capacity as needed , so
elements are copied an average of once . Hash tables double / halve
their size as needed , with appropriate hysteresis to maintain O ( 1 )
performance .
NOTES - DYNAMIC ARRAY
* If you know how long a dynamic array is going to be in advance , you can avoid
extra memory allocations by using arrsetlen to allocate it to that length in
advance and use foo [ n ] while filling it out , or arrsetcap to allocate the memory
for that length and use arrput / arrpush as normal .
* Unlike some other versions of the dynamic array , this version should
be safe to use with strict - aliasing optimizations .
NOTES - HASH MAP
* For compilers other than GCC and clang ( e . g . Visual Studio ) , for hmput / hmget / hmdel
and variants , the key must be an lvalue ( so the macro can take the address of it ) .
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Extensions are used that eliminate this requirement if you ' re using C99 and later
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in GCC or clang , or if you ' re using C + + in GCC . But note that this can make your
code less portable .
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* To test for presence of a key in a hashmap , just do ' hmgeti ( foo , key ) > = 0 ' .
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* The iteration order of your data in the hashmap is determined solely by the
order of insertions and deletions . In particular , if you never delete , new
keys are always added at the end of the array . This will be consistent
across all platforms and versions of the library . However , you should not
attempt to serialize the internal hash table , as the hash is not consistent
between different platforms , and may change with future versions of the library .
* Use sh_new_arena ( ) for string hashmaps that you never delete from . Initialize
with NULL if you ' re managing the memory for your strings , or your strings are
never freed ( at least until the hashmap is freed ) . Otherwise , use sh_new_strdup ( ) .
@ TODO : make an arena variant that garbage collects the strings with a trivial
copy collector into a new arena whenever the table shrinks / rebuilds . Since
current arena recommendation is to only use arena if it never deletes , then
this can just replace current arena implementation .
* If adversarial input is a serious concern and you ' re on a 64 - bit platform ,
enable STBDS_SIPHASH_2_4 ( see the ' Compile - time options ' section ) , and pass
a strong random number to stbds_rand_seed .
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* The default value for the hash table is stored in foo [ - 1 ] , so if you
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use code like ' hmget ( T , k ) - > value = 5 ' you can accidentally overwrite
the value stored by hmdefault if ' k ' is not present .
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CREDITS
Sean Barrett - - library , idea for dynamic array API / implementation
Per Vognsen - - idea for hash table API / implementation
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Rafael Sachetto - - arrpop ( )
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github : HeroicKatora - - arraddn ( ) reworking
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Bugfixes :
Andy Durdin
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Shane Liesegang
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Vinh Truong
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Andreas Molzer
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github : hashitaku
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*/
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# ifdef STBDS_UNIT_TESTS
# define _CRT_SECURE_NO_WARNINGS
# endif
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# ifndef INCLUDE_STB_DS_H
# define INCLUDE_STB_DS_H
# include <stddef.h>
# include <string.h>
# ifndef STBDS_NO_SHORT_NAMES
# define arrlen stbds_arrlen
# define arrlenu stbds_arrlenu
# define arrput stbds_arrput
# define arrpush stbds_arrput
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# define arrpop stbds_arrpop
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# define arrfree stbds_arrfree
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# define arraddn stbds_arraddn // deprecated, use one of the following instead:
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# define arraddnptr stbds_arraddnptr
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# define arraddnindex stbds_arraddnindex
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# define arrsetlen stbds_arrsetlen
# define arrlast stbds_arrlast
# define arrins stbds_arrins
# define arrinsn stbds_arrinsn
# define arrdel stbds_arrdel
# define arrdeln stbds_arrdeln
# define arrdelswap stbds_arrdelswap
# define arrcap stbds_arrcap
# define arrsetcap stbds_arrsetcap
# define hmput stbds_hmput
# define hmputs stbds_hmputs
# define hmget stbds_hmget
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# define hmget_ts stbds_hmget_ts
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# define hmgets stbds_hmgets
# define hmgetp stbds_hmgetp
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# define hmgetp_ts stbds_hmgetp_ts
# define hmgetp_null stbds_hmgetp_null
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# define hmgeti stbds_hmgeti
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# define hmgeti_ts stbds_hmgeti_ts
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# define hmdel stbds_hmdel
# define hmlen stbds_hmlen
# define hmlenu stbds_hmlenu
# define hmfree stbds_hmfree
# define hmdefault stbds_hmdefault
# define hmdefaults stbds_hmdefaults
# define shput stbds_shput
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# define shputi stbds_shputi
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# define shputs stbds_shputs
# define shget stbds_shget
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# define shgeti stbds_shgeti
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# define shgets stbds_shgets
# define shgetp stbds_shgetp
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# define shgetp_null stbds_shgetp_null
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# define shdel stbds_shdel
# define shlen stbds_shlen
# define shlenu stbds_shlenu
# define shfree stbds_shfree
# define shdefault stbds_shdefault
# define shdefaults stbds_shdefaults
# define sh_new_arena stbds_sh_new_arena
# define sh_new_strdup stbds_sh_new_strdup
# define stralloc stbds_stralloc
# define strreset stbds_strreset
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# endif
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# if defined(STBDS_REALLOC) && !defined(STBDS_FREE) || !defined(STBDS_REALLOC) && defined(STBDS_FREE)
# error "You must define both STBDS_REALLOC and STBDS_FREE, or neither."
# endif
# if !defined(STBDS_REALLOC) && !defined(STBDS_FREE)
# include <stdlib.h>
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# define STBDS_REALLOC(c,p,s) realloc(p,s)
# define STBDS_FREE(c,p) free(p)
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# endif
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# ifdef _MSC_VER
# define STBDS_NOTUSED(v) (void)(v)
# else
# define STBDS_NOTUSED(v) (void)sizeof(v)
# endif
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# ifdef __cplusplus
extern " C " {
# endif
// for security against attackers, seed the library with a random number, at least time() but stronger is better
extern void stbds_rand_seed ( size_t seed ) ;
// these are the hash functions used internally if you want to test them or use them for other purposes
extern size_t stbds_hash_bytes ( void * p , size_t len , size_t seed ) ;
extern size_t stbds_hash_string ( char * str , size_t seed ) ;
// this is a simple string arena allocator, initialize with e.g. 'stbds_string_arena my_arena={0}'.
typedef struct stbds_string_arena stbds_string_arena ;
extern char * stbds_stralloc ( stbds_string_arena * a , char * str ) ;
extern void stbds_strreset ( stbds_string_arena * a ) ;
// have to #define STBDS_UNIT_TESTS to call this
extern void stbds_unit_tests ( void ) ;
///////////////
//
// Everything below here is implementation details
//
extern void * stbds_arrgrowf ( void * a , size_t elemsize , size_t addlen , size_t min_cap ) ;
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extern void stbds_hmfree_func ( void * p , size_t elemsize ) ;
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extern void * stbds_hmget_key ( void * a , size_t elemsize , void * key , size_t keysize , int mode ) ;
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extern void * stbds_hmget_key_ts ( void * a , size_t elemsize , void * key , size_t keysize , ptrdiff_t * temp , int mode ) ;
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extern void * stbds_hmput_default ( void * a , size_t elemsize ) ;
extern void * stbds_hmput_key ( void * a , size_t elemsize , void * key , size_t keysize , int mode ) ;
extern void * stbds_hmdel_key ( void * a , size_t elemsize , void * key , size_t keysize , size_t keyoffset , int mode ) ;
extern void * stbds_shmode_func ( size_t elemsize , int mode ) ;
# ifdef __cplusplus
}
# endif
# if defined(__GNUC__) || defined(__clang__)
# define STBDS_HAS_TYPEOF
# ifdef __cplusplus
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//#define STBDS_HAS_LITERAL_ARRAY // this is currently broken for clang
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# endif
# endif
# if !defined(__cplusplus)
# if defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L
# define STBDS_HAS_LITERAL_ARRAY
# endif
# endif
// this macro takes the address of the argument, but on gcc/clang can accept rvalues
# if defined(STBDS_HAS_LITERAL_ARRAY) && defined(STBDS_HAS_TYPEOF)
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# if __clang__
# define STBDS_ADDRESSOF(typevar, value) ((__typeof__(typevar)[1]){value}) // literal array decays to pointer to value
# else
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# define STBDS_ADDRESSOF(typevar, value) ((typeof(typevar)[1]){value}) // literal array decays to pointer to value
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# endif
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# else
# define STBDS_ADDRESSOF(typevar, value) &(value)
# endif
# define STBDS_OFFSETOF(var,field) ((char *) &(var)->field - (char *) (var))
# define stbds_header(t) ((stbds_array_header *) (t) - 1)
# define stbds_temp(t) stbds_header(t)->temp
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# define stbds_arrsetcap(a,n) (stbds_arrgrow(a,0,n))
# define stbds_arrsetlen(a,n) ((stbds_arrcap(a) < (size_t) (n) ? stbds_arrsetcap((a),(size_t)(n)),0 : 0), (a) ? stbds_header(a)->length = (size_t) (n) : 0)
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# define stbds_arrcap(a) ((a) ? stbds_header(a)->capacity : 0)
# define stbds_arrlen(a) ((a) ? (ptrdiff_t) stbds_header(a)->length : 0)
# define stbds_arrlenu(a) ((a) ? stbds_header(a)->length : 0)
# define stbds_arrput(a,v) (stbds_arrmaybegrow(a,1), (a)[stbds_header(a)->length++] = (v))
# define stbds_arrpush stbds_arrput // synonym
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# define stbds_arrpop(a) (stbds_header(a)->length--, (a)[stbds_header(a)->length])
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# define stbds_arraddn(a,n) ((void)(stbds_arraddnoff(a, n))) // deprecated, use one of the following instead:
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# define stbds_arraddnptr(a,n) (stbds_arrmaybegrow(a,n), stbds_header(a)->length += (n), &(a)[stbds_header(a)->length-(n)])
# define stbds_arraddnoff(a,n) (stbds_arrmaybegrow(a,n), stbds_header(a)->length += (n), stbds_header(a)->length-(n))
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# define stbds_arrlast(a) ((a)[stbds_header(a)->length-1])
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# define stbds_arrfree(a) ((void) ((a) ? STBDS_FREE(NULL,stbds_header(a)) : (void)0), (a)=NULL)
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# define stbds_arrdel(a,i) stbds_arrdeln(a,i,1)
# define stbds_arrdeln(a,i,n) (memmove(&(a)[i], &(a)[(i)+(n)], sizeof *(a) * (stbds_header(a)->length-(n)-(i))), stbds_header(a)->length -= (n))
# define stbds_arrdelswap(a,i) ((a)[i] = stbds_arrlast(a), stbds_header(a)->length -= 1)
# define stbds_arrinsn(a,i,n) (stbds_arraddn((a),(n)), memmove(&(a)[(i)+(n)], &(a)[i], sizeof *(a) * (stbds_header(a)->length-(n)-(i))))
# define stbds_arrins(a,i,v) (stbds_arrinsn((a),(i),1), (a)[i]=(v))
# define stbds_arrmaybegrow(a,n) ((!(a) || stbds_header(a)->length + (n) > stbds_header(a)->capacity) \
? ( stbds_arrgrow ( a , n , 0 ) , 0 ) : 0 )
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# define stbds_arrgrow(a,b,c) ((a) = stbds_arrgrowf_wrapper((a), sizeof *(a), (b), (c)))
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# define stbds_hmput(t, k, v) \
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( ( t ) = stbds_hmput_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) STBDS_ADDRESSOF ( ( t ) - > key , ( k ) ) , sizeof ( t ) - > key , 0 ) , \
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( t ) [ stbds_temp ( ( t ) - 1 ) ] . key = ( k ) , \
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( t ) [ stbds_temp ( ( t ) - 1 ) ] . value = ( v ) )
# define stbds_hmputs(t, s) \
( ( t ) = stbds_hmput_key_wrapper ( ( t ) , sizeof * ( t ) , & ( s ) . key , sizeof ( s ) . key , STBDS_HM_BINARY ) , \
( t ) [ stbds_temp ( ( t ) - 1 ) ] = ( s ) )
# define stbds_hmgeti(t,k) \
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( ( t ) = stbds_hmget_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) STBDS_ADDRESSOF ( ( t ) - > key , ( k ) ) , sizeof ( t ) - > key , STBDS_HM_BINARY ) , \
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stbds_temp ( ( t ) - 1 ) )
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# define stbds_hmgeti_ts(t,k,temp) \
( ( t ) = stbds_hmget_key_ts_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) STBDS_ADDRESSOF ( ( t ) - > key , ( k ) ) , sizeof ( t ) - > key , & ( temp ) , STBDS_HM_BINARY ) , \
( temp ) )
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# define stbds_hmgetp(t, k) \
( ( void ) stbds_hmgeti ( t , k ) , & ( t ) [ stbds_temp ( ( t ) - 1 ) ] )
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# define stbds_hmgetp_ts(t, k, temp) \
( ( void ) stbds_hmgeti_ts ( t , k , temp ) , & ( t ) [ temp ] )
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# define stbds_hmdel(t,k) \
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( ( ( t ) = stbds_hmdel_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) STBDS_ADDRESSOF ( ( t ) - > key , ( k ) ) , sizeof ( t ) - > key , STBDS_OFFSETOF ( ( t ) , key ) , STBDS_HM_BINARY ) ) , ( t ) ? stbds_temp ( ( t ) - 1 ) : 0 )
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# define stbds_hmdefault(t, v) \
( ( t ) = stbds_hmput_default_wrapper ( ( t ) , sizeof * ( t ) ) , ( t ) [ - 1 ] . value = ( v ) )
# define stbds_hmdefaults(t, s) \
( ( t ) = stbds_hmput_default_wrapper ( ( t ) , sizeof * ( t ) ) , ( t ) [ - 1 ] = ( s ) )
# define stbds_hmfree(p) \
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( ( void ) ( ( p ) ! = NULL ? stbds_hmfree_func ( ( p ) - 1 , sizeof * ( p ) ) , 0 : 0 ) , ( p ) = NULL )
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# define stbds_hmgets(t, k) (*stbds_hmgetp(t,k))
# define stbds_hmget(t, k) (stbds_hmgetp(t,k)->value)
# define stbds_hmget_ts(t, k, temp) (stbds_hmgetp_ts(t,k,temp)->value)
# define stbds_hmlen(t) ((t) ? (ptrdiff_t) stbds_header((t)-1)->length-1 : 0)
# define stbds_hmlenu(t) ((t) ? stbds_header((t)-1)->length-1 : 0)
# define stbds_hmgetp_null(t,k) (stbds_hmgeti(t,k) == -1 ? NULL : &(t)[stbds_temp(t)-1])
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# define stbds_shput(t, k, v) \
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( ( t ) = stbds_hmput_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) ( k ) , sizeof ( t ) - > key , STBDS_HM_STRING ) , \
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( t ) [ stbds_temp ( ( t ) - 1 ) ] . value = ( v ) )
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# define stbds_shputi(t, k, v) \
( ( t ) = stbds_hmput_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) ( k ) , sizeof ( t ) - > key , STBDS_HM_STRING ) , \
( t ) [ stbds_temp ( ( t ) - 1 ) ] . value = ( v ) , stbds_temp ( ( t ) - 1 ) )
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# define stbds_shputs(t, s) \
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( ( t ) = stbds_hmput_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) ( s ) . key , sizeof ( s ) . key , STBDS_HM_STRING ) , \
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( t ) [ stbds_temp ( ( t ) - 1 ) ] = ( s ) )
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# define stbds_pshput(t, p) \
( ( t ) = stbds_hmput_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) ( p ) - > key , sizeof ( p ) - > key , STBDS_HM_PTR_TO_STRING ) , \
( t ) [ stbds_temp ( ( t ) - 1 ) ] = ( p ) )
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# define stbds_shgeti(t,k) \
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( ( t ) = stbds_hmget_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) ( k ) , sizeof ( t ) - > key , STBDS_HM_STRING ) , \
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stbds_temp ( ( t ) - 1 ) )
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# define stbds_pshgeti(t,k) \
( ( t ) = stbds_hmget_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) ( k ) , sizeof ( * ( t ) ) - > key , STBDS_HM_PTR_TO_STRING ) , \
stbds_temp ( ( t ) - 1 ) )
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# define stbds_shgetp(t, k) \
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( ( void ) stbds_shgeti ( t , k ) , & ( t ) [ stbds_temp ( ( t ) - 1 ) ] )
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# define stbds_pshget(t, k) \
( ( void ) stbds_pshgeti ( t , k ) , ( t ) [ stbds_temp ( ( t ) - 1 ) ] )
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# define stbds_shdel(t,k) \
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( ( ( t ) = stbds_hmdel_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) ( k ) , sizeof ( t ) - > key , STBDS_OFFSETOF ( ( t ) , key ) , STBDS_HM_STRING ) ) , ( t ) ? stbds_temp ( ( t ) - 1 ) : 0 )
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# define stbds_pshdel(t,k) \
( ( ( t ) = stbds_hmdel_key_wrapper ( ( t ) , sizeof * ( t ) , ( void * ) ( k ) , sizeof ( * ( t ) ) - > key , STBDS_OFFSETOF ( * ( t ) , key ) , STBDS_HM_PTR_TO_STRING ) ) , ( t ) ? stbds_temp ( ( t ) - 1 ) : 0 )
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# define stbds_sh_new_arena(t) \
( ( t ) = stbds_shmode_func_wrapper ( t , sizeof * ( t ) , STBDS_SH_ARENA ) )
# define stbds_sh_new_strdup(t) \
( ( t ) = stbds_shmode_func_wrapper ( t , sizeof * ( t ) , STBDS_SH_STRDUP ) )
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# define stbds_shdefault(t, v) stbds_hmdefault(t,v)
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# define stbds_shdefaults(t, s) stbds_hmdefaults(t,s)
# define stbds_shfree stbds_hmfree
# define stbds_shlenu stbds_hmlenu
# define stbds_shgets(t, k) (*stbds_shgetp(t,k))
# define stbds_shget(t, k) (stbds_shgetp(t,k)->value)
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# define stbds_shgetp_null(t,k) (stbds_shgeti(t,k) == -1 ? NULL : &(t)[stbds_temp(t)-1])
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# define stbds_shlen stbds_hmlen
typedef struct
{
size_t length ;
size_t capacity ;
void * hash_table ;
ptrdiff_t temp ;
} stbds_array_header ;
typedef struct stbds_string_block
{
struct stbds_string_block * next ;
char storage [ 8 ] ;
} stbds_string_block ;
struct stbds_string_arena
{
stbds_string_block * storage ;
size_t remaining ;
unsigned char block ;
unsigned char mode ; // this isn't used by the string arena itself
} ;
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# define STBDS_HM_BINARY 0
# define STBDS_HM_STRING 1
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enum
{
STBDS_SH_NONE ,
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STBDS_SH_DEFAULT ,
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STBDS_SH_STRDUP ,
STBDS_SH_ARENA
} ;
# ifdef __cplusplus
// in C we use implicit assignment from these void*-returning functions to T*.
// in C++ these templates make the same code work
template < class T > static T * stbds_arrgrowf_wrapper ( T * a , size_t elemsize , size_t addlen , size_t min_cap ) {
return ( T * ) stbds_arrgrowf ( ( void * ) a , elemsize , addlen , min_cap ) ;
}
template < class T > static T * stbds_hmget_key_wrapper ( T * a , size_t elemsize , void * key , size_t keysize , int mode ) {
return ( T * ) stbds_hmget_key ( ( void * ) a , elemsize , key , keysize , mode ) ;
}
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template < class T > static T * stbds_hmget_key_ts_wrapper ( T * a , size_t elemsize , void * key , size_t keysize , ptrdiff_t * temp , int mode ) {
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return ( T * ) stbds_hmget_key_ts ( ( void * ) a , elemsize , key , keysize , temp , mode ) ;
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}
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template < class T > static T * stbds_hmput_default_wrapper ( T * a , size_t elemsize ) {
return ( T * ) stbds_hmput_default ( ( void * ) a , elemsize ) ;
}
template < class T > static T * stbds_hmput_key_wrapper ( T * a , size_t elemsize , void * key , size_t keysize , int mode ) {
return ( T * ) stbds_hmput_key ( ( void * ) a , elemsize , key , keysize , mode ) ;
}
template < class T > static T * stbds_hmdel_key_wrapper ( T * a , size_t elemsize , void * key , size_t keysize , size_t keyoffset , int mode ) {
return ( T * ) stbds_hmdel_key ( ( void * ) a , elemsize , key , keysize , keyoffset , mode ) ;
}
template < class T > static T * stbds_shmode_func_wrapper ( T * , size_t elemsize , int mode ) {
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return ( T * ) stbds_shmode_func ( elemsize , mode ) ;
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}
# else
# define stbds_arrgrowf_wrapper stbds_arrgrowf
# define stbds_hmget_key_wrapper stbds_hmget_key
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# define stbds_hmget_key_ts_wrapper stbds_hmget_key_ts
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# define stbds_hmput_default_wrapper stbds_hmput_default
# define stbds_hmput_key_wrapper stbds_hmput_key
# define stbds_hmdel_key_wrapper stbds_hmdel_key
# define stbds_shmode_func_wrapper(t,e,m) stbds_shmode_func(e,m)
# endif
# endif // INCLUDE_STB_DS_H
//////////////////////////////////////////////////////////////////////////////
//
// IMPLEMENTATION
//
# ifdef STB_DS_IMPLEMENTATION
# include <assert.h>
# include <string.h>
# ifndef STBDS_ASSERT
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# define STBDS_ASSERT_WAS_UNDEFINED
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# define STBDS_ASSERT(x) ((void) 0)
# endif
# ifdef STBDS_STATISTICS
# define STBDS_STATS(x) x
size_t stbds_array_grow ;
size_t stbds_hash_grow ;
size_t stbds_hash_shrink ;
size_t stbds_hash_rebuild ;
size_t stbds_hash_probes ;
size_t stbds_hash_alloc ;
size_t stbds_rehash_probes ;
size_t stbds_rehash_items ;
# else
# define STBDS_STATS(x)
# endif
//
// stbds_arr implementation
//
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//int *prev_allocs[65536];
//int num_prev;
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void * stbds_arrgrowf ( void * a , size_t elemsize , size_t addlen , size_t min_cap )
{
void * b ;
size_t min_len = stbds_arrlen ( a ) + addlen ;
// compute the minimum capacity needed
if ( min_len > min_cap )
min_cap = min_len ;
if ( min_cap < = stbds_arrcap ( a ) )
return a ;
// increase needed capacity to guarantee O(1) amortized
if ( min_cap < 2 * stbds_arrcap ( a ) )
min_cap = 2 * stbds_arrcap ( a ) ;
else if ( min_cap < 4 )
min_cap = 4 ;
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//if (num_prev < 65536) if (a) prev_allocs[num_prev++] = (int *) ((char *) a+1);
//if (num_prev == 2201)
// num_prev = num_prev;
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b = STBDS_REALLOC ( NULL , ( a ) ? stbds_header ( a ) : 0 , elemsize * min_cap + sizeof ( stbds_array_header ) ) ;
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//if (num_prev < 65536) prev_allocs[num_prev++] = (int *) (char *) b;
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b = ( char * ) b + sizeof ( stbds_array_header ) ;
if ( a = = NULL ) {
stbds_header ( b ) - > length = 0 ;
stbds_header ( b ) - > hash_table = 0 ;
} else {
STBDS_STATS ( + + stbds_array_grow ) ;
}
stbds_header ( b ) - > capacity = min_cap ;
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return b ;
}
//
// stbds_hm hash table implementation
//
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# ifdef STBDS_INTERNAL_SMALL_BUCKET
# define STBDS_BUCKET_LENGTH 4
# else
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# define STBDS_BUCKET_LENGTH 8
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# endif
# define STBDS_BUCKET_SHIFT (STBDS_BUCKET_LENGTH == 8 ? 3 : 2)
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# define STBDS_BUCKET_MASK (STBDS_BUCKET_LENGTH-1)
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# define STBDS_CACHE_LINE_SIZE 64
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# define STBDS_ALIGN_FWD(n,a) (((n) + (a) - 1) & ~((a)-1))
typedef struct
{
size_t hash [ STBDS_BUCKET_LENGTH ] ;
ptrdiff_t index [ STBDS_BUCKET_LENGTH ] ;
} stbds_hash_bucket ; // in 32-bit, this is one 64-byte cache line; in 64-bit, each array is one 64-byte cache line
typedef struct
{
size_t slot_count ;
size_t used_count ;
size_t used_count_threshold ;
size_t used_count_shrink_threshold ;
size_t tombstone_count ;
size_t tombstone_count_threshold ;
size_t seed ;
size_t slot_count_log2 ;
stbds_string_arena string ;
stbds_hash_bucket * storage ; // not a separate allocation, just 64-byte aligned storage after this struct
} stbds_hash_index ;
# define STBDS_INDEX_EMPTY -1
# define STBDS_INDEX_DELETED -2
# define STBDS_INDEX_IN_USE(x) ((x) >= 0)
# define STBDS_HASH_EMPTY 0
# define STBDS_HASH_DELETED 1
static size_t stbds_hash_seed = 0x31415926 ;
void stbds_rand_seed ( size_t seed )
{
stbds_hash_seed = seed ;
}
# define stbds_load_32_or_64(var, temp, v32, v64_hi, v64_lo) \
temp = v64_lo ^ v32 , temp < < = 16 , temp < < = 16 , temp > > = 16 , temp > > = 16 , /* discard if 32-bit */ \
var = v64_hi , var < < = 16 , var < < = 16 , /* discard if 32-bit */ \
var ^ = temp ^ v32
# define STBDS_SIZE_T_BITS ((sizeof (size_t)) * 8)
static size_t stbds_probe_position ( size_t hash , size_t slot_count , size_t slot_log2 )
{
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size_t pos ;
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STBDS_NOTUSED ( slot_log2 ) ;
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pos = hash & ( slot_count - 1 ) ;
# ifdef STBDS_INTERNAL_BUCKET_START
pos & = ~ STBDS_BUCKET_MASK ;
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# endif
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return pos ;
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}
static size_t stbds_log2 ( size_t slot_count )
{
size_t n = 0 ;
while ( slot_count > 1 ) {
slot_count > > = 1 ;
+ + n ;
}
return n ;
}
static stbds_hash_index * stbds_make_hash_index ( size_t slot_count , stbds_hash_index * ot )
{
stbds_hash_index * t ;
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t = ( stbds_hash_index * ) STBDS_REALLOC ( NULL , 0 , ( slot_count > > STBDS_BUCKET_SHIFT ) * sizeof ( stbds_hash_bucket ) + sizeof ( stbds_hash_index ) + STBDS_CACHE_LINE_SIZE - 1 ) ;
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t - > storage = ( stbds_hash_bucket * ) STBDS_ALIGN_FWD ( ( size_t ) ( t + 1 ) , STBDS_CACHE_LINE_SIZE ) ;
t - > slot_count = slot_count ;
t - > slot_count_log2 = stbds_log2 ( slot_count ) ;
t - > tombstone_count = 0 ;
t - > used_count = 0 ;
#if 0 // A1
t - > used_count_threshold = slot_count * 12 / 16 ; // if 12/16th of table is occupied, grow
t - > tombstone_count_threshold = slot_count * 2 / 16 ; // if tombstones are 2/16th of table, rebuild
t - > used_count_shrink_threshold = slot_count * 4 / 16 ; // if table is only 4/16th full, shrink
# elif 1 // A2
//t->used_count_threshold = slot_count*12/16; // if 12/16th of table is occupied, grow
//t->tombstone_count_threshold = slot_count* 3/16; // if tombstones are 3/16th of table, rebuild
//t->used_count_shrink_threshold = slot_count* 4/16; // if table is only 4/16th full, shrink
// compute without overflowing
t - > used_count_threshold = slot_count - ( slot_count > > 2 ) ;
t - > tombstone_count_threshold = ( slot_count > > 3 ) + ( slot_count > > 4 ) ;
t - > used_count_shrink_threshold = slot_count > > 2 ;
# elif 0 // B1
t - > used_count_threshold = slot_count * 13 / 16 ; // if 13/16th of table is occupied, grow
t - > tombstone_count_threshold = slot_count * 2 / 16 ; // if tombstones are 2/16th of table, rebuild
t - > used_count_shrink_threshold = slot_count * 5 / 16 ; // if table is only 5/16th full, shrink
# else // C1
t - > used_count_threshold = slot_count * 14 / 16 ; // if 14/16th of table is occupied, grow
t - > tombstone_count_threshold = slot_count * 2 / 16 ; // if tombstones are 2/16th of table, rebuild
t - > used_count_shrink_threshold = slot_count * 6 / 16 ; // if table is only 6/16th full, shrink
# endif
// Following statistics were measured on a Core i7-6700 @ 4.00Ghz, compiled with clang 7.0.1 -O2
// Note that the larger tables have high variance as they were run fewer times
// A1 A2 B1 C1
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// 0.10ms : 0.10ms : 0.10ms : 0.11ms : 2,000 inserts creating 2K table
// 0.96ms : 0.95ms : 0.97ms : 1.04ms : 20,000 inserts creating 20K table
// 14.48ms : 14.46ms : 10.63ms : 11.00ms : 200,000 inserts creating 200K table
// 195.74ms : 196.35ms : 203.69ms : 214.92ms : 2,000,000 inserts creating 2M table
// 2193.88ms : 2209.22ms : 2285.54ms : 2437.17ms : 20,000,000 inserts creating 20M table
// 65.27ms : 53.77ms : 65.33ms : 65.47ms : 500,000 inserts & deletes in 2K table
// 72.78ms : 62.45ms : 71.95ms : 72.85ms : 500,000 inserts & deletes in 20K table
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// 89.47ms : 77.72ms : 96.49ms : 96.75ms : 500,000 inserts & deletes in 200K table
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// 97.58ms : 98.14ms : 97.18ms : 97.53ms : 500,000 inserts & deletes in 2M table
// 118.61ms : 119.62ms : 120.16ms : 118.86ms : 500,000 inserts & deletes in 20M table
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// 192.11ms : 194.39ms : 196.38ms : 195.73ms : 500,000 inserts & deletes in 200M table
if ( slot_count < = STBDS_BUCKET_LENGTH )
t - > used_count_shrink_threshold = 0 ;
// to avoid infinite loop, we need to guarantee that at least one slot is empty and will terminate probes
STBDS_ASSERT ( t - > used_count_threshold + t - > tombstone_count_threshold < t - > slot_count ) ;
STBDS_STATS ( + + stbds_hash_alloc ) ;
if ( ot ) {
t - > string = ot - > string ;
// reuse old seed so we can reuse old hashes so below "copy out old data" doesn't do any hashing
t - > seed = ot - > seed ;
} else {
size_t a , b , temp ;
memset ( & t - > string , 0 , sizeof ( t - > string ) ) ;
t - > seed = stbds_hash_seed ;
// LCG
// in 32-bit, a = 2147001325 b = 715136305
// in 64-bit, a = 2862933555777941757 b = 3037000493
stbds_load_32_or_64 ( a , temp , 2147001325 , 0x27bb2ee6 , 0x87b0b0fd ) ;
stbds_load_32_or_64 ( b , temp , 715136305 , 0 , 0xb504f32d ) ;
stbds_hash_seed = stbds_hash_seed * a + b ;
}
{
size_t i , j ;
for ( i = 0 ; i < slot_count > > STBDS_BUCKET_SHIFT ; + + i ) {
stbds_hash_bucket * b = & t - > storage [ i ] ;
for ( j = 0 ; j < STBDS_BUCKET_LENGTH ; + + j )
b - > hash [ j ] = STBDS_HASH_EMPTY ;
for ( j = 0 ; j < STBDS_BUCKET_LENGTH ; + + j )
b - > index [ j ] = STBDS_INDEX_EMPTY ;
}
}
// copy out the old data, if any
if ( ot ) {
size_t i , j ;
t - > used_count = ot - > used_count ;
for ( i = 0 ; i < ot - > slot_count > > STBDS_BUCKET_SHIFT ; + + i ) {
stbds_hash_bucket * ob = & ot - > storage [ i ] ;
for ( j = 0 ; j < STBDS_BUCKET_LENGTH ; + + j ) {
if ( STBDS_INDEX_IN_USE ( ob - > index [ j ] ) ) {
size_t hash = ob - > hash [ j ] ;
size_t pos = stbds_probe_position ( hash , t - > slot_count , t - > slot_count_log2 ) ;
size_t step = STBDS_BUCKET_LENGTH ;
STBDS_STATS ( + + stbds_rehash_items ) ;
for ( ; ; ) {
size_t limit , z ;
stbds_hash_bucket * bucket ;
bucket = & t - > storage [ pos > > STBDS_BUCKET_SHIFT ] ;
STBDS_STATS ( + + stbds_rehash_probes ) ;
for ( z = pos & STBDS_BUCKET_MASK ; z < STBDS_BUCKET_LENGTH ; + + z ) {
if ( bucket - > hash [ z ] = = 0 ) {
bucket - > hash [ z ] = hash ;
bucket - > index [ z ] = ob - > index [ j ] ;
goto done ;
}
}
limit = pos & STBDS_BUCKET_MASK ;
for ( z = 0 ; z < limit ; + + z ) {
if ( bucket - > hash [ z ] = = 0 ) {
bucket - > hash [ z ] = hash ;
bucket - > index [ z ] = ob - > index [ j ] ;
goto done ;
}
}
pos + = step ; // quadratic probing
step + = STBDS_BUCKET_LENGTH ;
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pos & = ( t - > slot_count - 1 ) ;
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}
}
done :
;
}
}
}
return t ;
}
# define STBDS_ROTATE_LEFT(val, n) (((val) << (n)) | ((val) >> (STBDS_SIZE_T_BITS - (n))))
# define STBDS_ROTATE_RIGHT(val, n) (((val) >> (n)) | ((val) << (STBDS_SIZE_T_BITS - (n))))
size_t stbds_hash_string ( char * str , size_t seed )
{
size_t hash = seed ;
while ( * str )
hash = STBDS_ROTATE_LEFT ( hash , 9 ) + ( unsigned char ) * str + + ;
// Thomas Wang 64-to-32 bit mix function, hopefully also works in 32 bits
hash ^ = seed ;
hash = ( ~ hash ) + ( hash < < 18 ) ;
hash ^ = hash ^ STBDS_ROTATE_RIGHT ( hash , 31 ) ;
hash = hash * 21 ;
hash ^ = hash ^ STBDS_ROTATE_RIGHT ( hash , 11 ) ;
hash + = ( hash < < 6 ) ;
hash ^ = STBDS_ROTATE_RIGHT ( hash , 22 ) ;
return hash + seed ;
}
# ifdef STBDS_SIPHASH_2_4
# define STBDS_SIPHASH_C_ROUNDS 2
# define STBDS_SIPHASH_D_ROUNDS 4
typedef int STBDS_SIPHASH_2_4_can_only_be_used_in_64_bit_builds [ sizeof ( size_t ) = = 8 ? 1 : - 1 ] ;
# endif
# ifndef STBDS_SIPHASH_C_ROUNDS
# define STBDS_SIPHASH_C_ROUNDS 1
# endif
# ifndef STBDS_SIPHASH_D_ROUNDS
# define STBDS_SIPHASH_D_ROUNDS 1
# endif
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# ifdef _MSC_VER
# pragma warning(push)
# pragma warning(disable:4127) // conditional expression is constant, for do..while(0) and sizeof()==
# endif
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static size_t stbds_siphash_bytes ( void * p , size_t len , size_t seed )
{
unsigned char * d = ( unsigned char * ) p ;
size_t i , j ;
size_t v0 , v1 , v2 , v3 , data ;
// hash that works on 32- or 64-bit registers without knowing which we have
// (computes different results on 32-bit and 64-bit platform)
// derived from siphash, but on 32-bit platforms very different as it uses 4 32-bit state not 4 64-bit
v0 = ( ( ( ( size_t ) 0x736f6d65 < < 16 ) < < 16 ) + 0x70736575 ) ^ seed ;
v1 = ( ( ( ( size_t ) 0x646f7261 < < 16 ) < < 16 ) + 0x6e646f6d ) ^ ~ seed ;
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v2 = ( ( ( ( size_t ) 0x6c796765 < < 16 ) < < 16 ) + 0x6e657261 ) ^ seed ;
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v3 = ( ( ( ( size_t ) 0x74656462 < < 16 ) < < 16 ) + 0x79746573 ) ^ ~ seed ;
# ifdef STBDS_TEST_SIPHASH_2_4
// hardcoded with key material in the siphash test vectors
v0 ^ = 0x0706050403020100ull ^ seed ;
v1 ^ = 0x0f0e0d0c0b0a0908ull ^ ~ seed ;
v2 ^ = 0x0706050403020100ull ^ seed ;
v3 ^ = 0x0f0e0d0c0b0a0908ull ^ ~ seed ;
# endif
# define STBDS_SIPROUND() \
do { \
v0 + = v1 ; v1 = STBDS_ROTATE_LEFT ( v1 , 13 ) ; v1 ^ = v0 ; v0 = STBDS_ROTATE_LEFT ( v0 , STBDS_SIZE_T_BITS / 2 ) ; \
v2 + = v3 ; v3 = STBDS_ROTATE_LEFT ( v3 , 16 ) ; v3 ^ = v2 ; \
v2 + = v1 ; v1 = STBDS_ROTATE_LEFT ( v1 , 17 ) ; v1 ^ = v2 ; v2 = STBDS_ROTATE_LEFT ( v2 , STBDS_SIZE_T_BITS / 2 ) ; \
v0 + = v3 ; v3 = STBDS_ROTATE_LEFT ( v3 , 21 ) ; v3 ^ = v0 ; \
} while ( 0 )
for ( i = 0 ; i + sizeof ( size_t ) < = len ; i + = sizeof ( size_t ) , d + = sizeof ( size_t ) ) {
data = d [ 0 ] | ( d [ 1 ] < < 8 ) | ( d [ 2 ] < < 16 ) | ( d [ 3 ] < < 24 ) ;
data | = ( size_t ) ( d [ 4 ] | ( d [ 5 ] < < 8 ) | ( d [ 6 ] < < 16 ) | ( d [ 7 ] < < 24 ) ) < < 16 < < 16 ; // discarded if size_t == 4
v3 ^ = data ;
for ( j = 0 ; j < STBDS_SIPHASH_C_ROUNDS ; + + j )
STBDS_SIPROUND ( ) ;
v0 ^ = data ;
}
data = len < < ( STBDS_SIZE_T_BITS - 8 ) ;
switch ( len - i ) {
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case 7 : data | = ( ( size_t ) d [ 6 ] < < 24 ) < < 24 ; // fall through
case 6 : data | = ( ( size_t ) d [ 5 ] < < 20 ) < < 20 ; // fall through
case 5 : data | = ( ( size_t ) d [ 4 ] < < 16 ) < < 16 ; // fall through
case 4 : data | = ( d [ 3 ] < < 24 ) ; // fall through
case 3 : data | = ( d [ 2 ] < < 16 ) ; // fall through
case 2 : data | = ( d [ 1 ] < < 8 ) ; // fall through
case 1 : data | = d [ 0 ] ; // fall through
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case 0 : break ;
}
v3 ^ = data ;
for ( j = 0 ; j < STBDS_SIPHASH_C_ROUNDS ; + + j )
STBDS_SIPROUND ( ) ;
v0 ^ = data ;
v2 ^ = 0xff ;
for ( j = 0 ; j < STBDS_SIPHASH_D_ROUNDS ; + + j )
STBDS_SIPROUND ( ) ;
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# ifdef STBDS_SIPHASH_2_4
return v0 ^ v1 ^ v2 ^ v3 ;
# else
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return v1 ^ v2 ^ v3 ; // slightly stronger since v0^v3 in above cancels out final round operation? I tweeted at the authors of SipHash about this but they didn't reply
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# endif
}
size_t stbds_hash_bytes ( void * p , size_t len , size_t seed )
{
# ifdef STBDS_SIPHASH_2_4
return stbds_siphash_bytes ( p , len , seed ) ;
# else
unsigned char * d = ( unsigned char * ) p ;
if ( len = = 4 ) {
unsigned int hash = d [ 0 ] | ( d [ 1 ] < < 8 ) | ( d [ 2 ] < < 16 ) | ( d [ 3 ] < < 24 ) ;
#if 0
// HASH32-A Bob Jenkin's hash function w/o large constants
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hash ^ = seed ;
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hash - = ( hash < < 6 ) ;
hash ^ = ( hash > > 17 ) ;
hash - = ( hash < < 9 ) ;
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hash ^ = seed ;
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hash ^ = ( hash < < 4 ) ;
hash - = ( hash < < 3 ) ;
hash ^ = ( hash < < 10 ) ;
hash ^ = ( hash > > 15 ) ;
# elif 1
// HASH32-BB Bob Jenkin's presumably-accidental version of Thomas Wang hash with rotates turned into shifts.
// Note that converting these back to rotates makes it run a lot slower, presumably due to collisions, so I'm
// not really sure what's going on.
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hash ^ = seed ;
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hash = ( hash ^ 61 ) ^ ( hash > > 16 ) ;
hash = hash + ( hash < < 3 ) ;
hash = hash ^ ( hash > > 4 ) ;
hash = hash * 0x27d4eb2d ;
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hash ^ = seed ;
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hash = hash ^ ( hash > > 15 ) ;
# else // HASH32-C - Murmur3
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hash ^ = seed ;
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hash * = 0xcc9e2d51 ;
hash = ( hash < < 17 ) | ( hash > > 15 ) ;
hash * = 0x1b873593 ;
hash ^ = seed ;
hash = ( hash < < 19 ) | ( hash > > 13 ) ;
hash = hash * 5 + 0xe6546b64 ;
hash ^ = hash > > 16 ;
hash * = 0x85ebca6b ;
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hash ^ = seed ;
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hash ^ = hash > > 13 ;
hash * = 0xc2b2ae35 ;
hash ^ = hash > > 16 ;
# endif
// Following statistics were measured on a Core i7-6700 @ 4.00Ghz, compiled with clang 7.0.1 -O2
// Note that the larger tables have high variance as they were run fewer times
// HASH32-A // HASH32-BB // HASH32-C
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// 0.10ms // 0.10ms // 0.10ms : 2,000 inserts creating 2K table
// 0.96ms // 0.95ms // 0.99ms : 20,000 inserts creating 20K table
// 14.69ms // 14.43ms // 14.97ms : 200,000 inserts creating 200K table
// 199.99ms // 195.36ms // 202.05ms : 2,000,000 inserts creating 2M table
// 2234.84ms // 2187.74ms // 2240.38ms : 20,000,000 inserts creating 20M table
// 55.68ms // 53.72ms // 57.31ms : 500,000 inserts & deletes in 2K table
// 63.43ms // 61.99ms // 65.73ms : 500,000 inserts & deletes in 20K table
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// 80.04ms // 77.96ms // 81.83ms : 500,000 inserts & deletes in 200K table
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// 100.42ms // 97.40ms // 102.39ms : 500,000 inserts & deletes in 2M table
// 119.71ms // 120.59ms // 121.63ms : 500,000 inserts & deletes in 20M table
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// 185.28ms // 195.15ms // 187.74ms : 500,000 inserts & deletes in 200M table
// 15.58ms // 14.79ms // 15.52ms : 200,000 inserts creating 200K table with varying key spacing
return ( ( ( size_t ) hash < < 16 < < 16 ) | hash ) ^ seed ;
} else if ( len = = 8 & & sizeof ( size_t ) = = 8 ) {
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size_t hash = d [ 0 ] | ( d [ 1 ] < < 8 ) | ( d [ 2 ] < < 16 ) | ( d [ 3 ] < < 24 ) ;
hash | = ( size_t ) ( d [ 4 ] | ( d [ 5 ] < < 8 ) | ( d [ 6 ] < < 16 ) | ( d [ 7 ] < < 24 ) ) < < 16 < < 16 ; // avoid warning if size_t == 4
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hash ^ = seed ;
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hash = ( ~ hash ) + ( hash < < 21 ) ;
hash ^ = STBDS_ROTATE_RIGHT ( hash , 24 ) ;
hash * = 265 ;
hash ^ = STBDS_ROTATE_RIGHT ( hash , 14 ) ;
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hash ^ = seed ;
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hash * = 21 ;
hash ^ = STBDS_ROTATE_RIGHT ( hash , 28 ) ;
hash + = ( hash < < 31 ) ;
hash = ( ~ hash ) + ( hash < < 18 ) ;
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return hash ;
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} else {
return stbds_siphash_bytes ( p , len , seed ) ;
}
# endif
}
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# ifdef _MSC_VER
# pragma warning(pop)
# endif
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static int stbds_is_key_equal ( void * a , size_t elemsize , void * key , size_t keysize , size_t keyoffset , int mode , size_t i )
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{
if ( mode > = STBDS_HM_STRING )
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return 0 = = strcmp ( ( char * ) key , * ( char * * ) ( ( char * ) a + elemsize * i + keyoffset ) ) ;
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else
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return 0 = = memcmp ( key , ( char * ) a + elemsize * i + keyoffset , keysize ) ;
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}
# define STBDS_HASH_TO_ARR(x,elemsize) ((char*) (x) - (elemsize))
# define STBDS_ARR_TO_HASH(x,elemsize) ((char*) (x) + (elemsize))
# define stbds_hash_table(a) ((stbds_hash_index *) stbds_header(a)->hash_table)
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void stbds_hmfree_func ( void * a , size_t elemsize )
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{
if ( a = = NULL ) return ;
if ( stbds_hash_table ( a ) ! = NULL ) {
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if ( stbds_hash_table ( a ) - > string . mode = = STBDS_SH_STRDUP ) {
size_t i ;
// skip 0th element, which is default
for ( i = 1 ; i < stbds_header ( a ) - > length ; + + i )
STBDS_FREE ( NULL , * ( char * * ) ( ( char * ) a + elemsize * i ) ) ;
}
stbds_strreset ( & stbds_hash_table ( a ) - > string ) ;
}
2019-06-17 15:25:44 +03:00
STBDS_FREE ( NULL , stbds_header ( a ) - > hash_table ) ;
STBDS_FREE ( NULL , stbds_header ( a ) ) ;
2019-02-25 22:16:35 +03:00
}
2020-02-01 15:18:23 +03:00
static ptrdiff_t stbds_hm_find_slot ( void * a , size_t elemsize , void * key , size_t keysize , size_t keyoffset , int mode )
2019-02-25 22:16:35 +03:00
{
void * raw_a = STBDS_HASH_TO_ARR ( a , elemsize ) ;
stbds_hash_index * table = stbds_hash_table ( raw_a ) ;
size_t hash = mode > = STBDS_HM_STRING ? stbds_hash_string ( ( char * ) key , table - > seed ) : stbds_hash_bytes ( key , keysize , table - > seed ) ;
size_t step = STBDS_BUCKET_LENGTH ;
size_t limit , i ;
size_t pos ;
stbds_hash_bucket * bucket ;
if ( hash < 2 ) hash + = 2 ; // stored hash values are forbidden from being 0, so we can detect empty slots
pos = stbds_probe_position ( hash , table - > slot_count , table - > slot_count_log2 ) ;
for ( ; ; ) {
STBDS_STATS ( + + stbds_hash_probes ) ;
bucket = & table - > storage [ pos > > STBDS_BUCKET_SHIFT ] ;
// start searching from pos to end of bucket, this should help performance on small hash tables that fit in cache
for ( i = pos & STBDS_BUCKET_MASK ; i < STBDS_BUCKET_LENGTH ; + + i ) {
if ( bucket - > hash [ i ] = = hash ) {
2020-02-01 15:18:23 +03:00
if ( stbds_is_key_equal ( a , elemsize , key , keysize , keyoffset , mode , bucket - > index [ i ] ) ) {
2019-02-25 22:16:35 +03:00
return ( pos & ~ STBDS_BUCKET_MASK ) + i ;
}
} else if ( bucket - > hash [ i ] = = STBDS_HASH_EMPTY ) {
return - 1 ;
}
}
// search from beginning of bucket to pos
limit = pos & STBDS_BUCKET_MASK ;
for ( i = 0 ; i < limit ; + + i ) {
if ( bucket - > hash [ i ] = = hash ) {
2020-02-01 15:18:23 +03:00
if ( stbds_is_key_equal ( a , elemsize , key , keysize , keyoffset , mode , bucket - > index [ i ] ) ) {
2019-02-25 22:16:35 +03:00
return ( pos & ~ STBDS_BUCKET_MASK ) + i ;
}
} else if ( bucket - > hash [ i ] = = STBDS_HASH_EMPTY ) {
return - 1 ;
}
}
// quadratic probing
pos + = step ;
step + = STBDS_BUCKET_LENGTH ;
pos & = ( table - > slot_count - 1 ) ;
}
/* NOTREACHED */
}
2020-02-01 15:18:23 +03:00
void * stbds_hmget_key_ts ( void * a , size_t elemsize , void * key , size_t keysize , ptrdiff_t * temp , int mode )
2019-02-25 22:16:35 +03:00
{
2020-02-01 15:18:23 +03:00
size_t keyoffset = 0 ;
2019-02-25 22:16:35 +03:00
if ( a = = NULL ) {
// make it non-empty so we can return a temp
a = stbds_arrgrowf ( 0 , elemsize , 0 , 1 ) ;
stbds_header ( a ) - > length + = 1 ;
memset ( a , 0 , elemsize ) ;
2020-02-01 15:18:23 +03:00
* temp = STBDS_INDEX_EMPTY ;
2019-02-25 22:16:35 +03:00
// adjust a to point after the default element
return STBDS_ARR_TO_HASH ( a , elemsize ) ;
} else {
stbds_hash_index * table ;
void * raw_a = STBDS_HASH_TO_ARR ( a , elemsize ) ;
// adjust a to point to the default element
table = ( stbds_hash_index * ) stbds_header ( raw_a ) - > hash_table ;
if ( table = = 0 ) {
2020-02-01 15:18:23 +03:00
* temp = - 1 ;
2019-02-25 22:16:35 +03:00
} else {
2020-02-01 15:18:23 +03:00
ptrdiff_t slot = stbds_hm_find_slot ( a , elemsize , key , keysize , keyoffset , mode ) ;
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if ( slot < 0 ) {
2020-02-01 15:18:23 +03:00
* temp = STBDS_INDEX_EMPTY ;
2019-02-25 22:16:35 +03:00
} else {
stbds_hash_bucket * b = & table - > storage [ slot > > STBDS_BUCKET_SHIFT ] ;
2020-02-01 15:18:23 +03:00
* temp = b - > index [ slot & STBDS_BUCKET_MASK ] ;
2019-02-25 22:16:35 +03:00
}
}
return a ;
}
}
2020-02-01 15:18:23 +03:00
void * stbds_hmget_key ( void * a , size_t elemsize , void * key , size_t keysize , int mode )
{
ptrdiff_t temp ;
void * p = stbds_hmget_key_ts ( a , elemsize , key , keysize , & temp , mode ) ;
stbds_temp ( STBDS_HASH_TO_ARR ( p , elemsize ) ) = temp ;
return p ;
}
2019-02-25 22:16:35 +03:00
void * stbds_hmput_default ( void * a , size_t elemsize )
{
// three cases:
// a is NULL <- allocate
// a has a hash table but no entries, because of shmode <- grow
// a has entries <- do nothing
if ( a = = NULL | | stbds_header ( STBDS_HASH_TO_ARR ( a , elemsize ) ) - > length = = 0 ) {
a = stbds_arrgrowf ( a ? STBDS_HASH_TO_ARR ( a , elemsize ) : NULL , elemsize , 0 , 1 ) ;
stbds_header ( a ) - > length + = 1 ;
memset ( a , 0 , elemsize ) ;
a = STBDS_ARR_TO_HASH ( a , elemsize ) ;
}
return a ;
}
static char * stbds_strdup ( char * str ) ;
void * stbds_hmput_key ( void * a , size_t elemsize , void * key , size_t keysize , int mode )
{
2020-02-01 15:18:23 +03:00
size_t keyoffset = 0 ;
2019-02-25 22:16:35 +03:00
void * raw_a ;
stbds_hash_index * table ;
if ( a = = NULL ) {
a = stbds_arrgrowf ( 0 , elemsize , 0 , 1 ) ;
memset ( a , 0 , elemsize ) ;
stbds_header ( a ) - > length + = 1 ;
// adjust a to point AFTER the default element
a = STBDS_ARR_TO_HASH ( a , elemsize ) ;
}
// adjust a to point to the default element
raw_a = a ;
a = STBDS_HASH_TO_ARR ( a , elemsize ) ;
table = ( stbds_hash_index * ) stbds_header ( a ) - > hash_table ;
if ( table = = NULL | | table - > used_count > = table - > used_count_threshold ) {
stbds_hash_index * nt ;
size_t slot_count ;
slot_count = ( table = = NULL ) ? STBDS_BUCKET_LENGTH : table - > slot_count * 2 ;
nt = stbds_make_hash_index ( slot_count , table ) ;
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if ( table )
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STBDS_FREE ( NULL , table ) ;
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else
nt - > string . mode = mode > = STBDS_HM_STRING ? STBDS_SH_DEFAULT : 0 ;
2019-02-25 22:16:35 +03:00
stbds_header ( a ) - > hash_table = table = nt ;
STBDS_STATS ( + + stbds_hash_grow ) ;
}
// we iterate hash table explicitly because we want to track if we saw a tombstone
{
size_t hash = mode > = STBDS_HM_STRING ? stbds_hash_string ( ( char * ) key , table - > seed ) : stbds_hash_bytes ( key , keysize , table - > seed ) ;
size_t step = STBDS_BUCKET_LENGTH ;
size_t limit , i ;
size_t pos ;
ptrdiff_t tombstone = - 1 ;
stbds_hash_bucket * bucket ;
// stored hash values are forbidden from being 0, so we can detect empty slots to early out quickly
if ( hash < 2 ) hash + = 2 ;
pos = stbds_probe_position ( hash , table - > slot_count , table - > slot_count_log2 ) ;
for ( ; ; ) {
STBDS_STATS ( + + stbds_hash_probes ) ;
bucket = & table - > storage [ pos > > STBDS_BUCKET_SHIFT ] ;
// start searching from pos to end of bucket
for ( i = pos & STBDS_BUCKET_MASK ; i < STBDS_BUCKET_LENGTH ; + + i ) {
if ( bucket - > hash [ i ] = = hash ) {
2020-02-01 15:18:23 +03:00
if ( stbds_is_key_equal ( raw_a , elemsize , key , keysize , keyoffset , mode , bucket - > index [ i ] ) ) {
2019-02-25 22:16:35 +03:00
stbds_temp ( a ) = bucket - > index [ i ] ;
return STBDS_ARR_TO_HASH ( a , elemsize ) ;
}
} else if ( bucket - > hash [ i ] = = 0 ) {
pos = ( pos & ~ STBDS_BUCKET_MASK ) + i ;
goto found_empty_slot ;
} else if ( tombstone < 0 ) {
if ( bucket - > index [ i ] = = STBDS_INDEX_DELETED )
tombstone = ( ptrdiff_t ) ( ( pos & ~ STBDS_BUCKET_MASK ) + i ) ;
}
}
// search from beginning of bucket to pos
limit = pos & STBDS_BUCKET_MASK ;
for ( i = 0 ; i < limit ; + + i ) {
if ( bucket - > hash [ i ] = = hash ) {
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if ( stbds_is_key_equal ( raw_a , elemsize , key , keysize , keyoffset , mode , bucket - > index [ i ] ) ) {
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stbds_temp ( a ) = bucket - > index [ i ] ;
return STBDS_ARR_TO_HASH ( a , elemsize ) ;
}
} else if ( bucket - > hash [ i ] = = 0 ) {
pos = ( pos & ~ STBDS_BUCKET_MASK ) + i ;
goto found_empty_slot ;
} else if ( tombstone < 0 ) {
if ( bucket - > index [ i ] = = STBDS_INDEX_DELETED )
tombstone = ( ptrdiff_t ) ( ( pos & ~ STBDS_BUCKET_MASK ) + i ) ;
}
}
// quadratic probing
pos + = step ;
step + = STBDS_BUCKET_LENGTH ;
pos & = ( table - > slot_count - 1 ) ;
}
found_empty_slot :
if ( tombstone > = 0 ) {
pos = tombstone ;
- - table - > tombstone_count ;
}
+ + table - > used_count ;
{
ptrdiff_t i = ( ptrdiff_t ) stbds_arrlen ( a ) ;
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// we want to do stbds_arraddn(1), but we can't use the macros since we don't have something of the right type
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if ( ( size_t ) i + 1 > stbds_arrcap ( a ) )
* ( void * * ) & a = stbds_arrgrowf ( a , elemsize , 1 , 0 ) ;
raw_a = STBDS_ARR_TO_HASH ( a , elemsize ) ;
STBDS_ASSERT ( ( size_t ) i + 1 < = stbds_arrcap ( a ) ) ;
stbds_header ( a ) - > length = i + 1 ;
bucket = & table - > storage [ pos > > STBDS_BUCKET_SHIFT ] ;
bucket - > hash [ pos & STBDS_BUCKET_MASK ] = hash ;
bucket - > index [ pos & STBDS_BUCKET_MASK ] = i - 1 ;
stbds_temp ( a ) = i - 1 ;
switch ( table - > string . mode ) {
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case STBDS_SH_STRDUP : * ( char * * ) ( ( char * ) a + elemsize * i ) = stbds_strdup ( ( char * ) key ) ; break ;
case STBDS_SH_ARENA : * ( char * * ) ( ( char * ) a + elemsize * i ) = stbds_stralloc ( & table - > string , ( char * ) key ) ; break ;
case STBDS_SH_DEFAULT : * ( char * * ) ( ( char * ) a + elemsize * i ) = ( char * ) key ; break ;
default : memcpy ( ( char * ) a + elemsize * i , key , keysize ) ; break ;
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}
}
return STBDS_ARR_TO_HASH ( a , elemsize ) ;
}
}
void * stbds_shmode_func ( size_t elemsize , int mode )
{
void * a = stbds_arrgrowf ( 0 , elemsize , 0 , 1 ) ;
stbds_hash_index * h ;
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memset ( a , 0 , elemsize ) ;
stbds_header ( a ) - > length = 1 ;
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stbds_header ( a ) - > hash_table = h = ( stbds_hash_index * ) stbds_make_hash_index ( STBDS_BUCKET_LENGTH , NULL ) ;
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h - > string . mode = ( unsigned char ) mode ;
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return STBDS_ARR_TO_HASH ( a , elemsize ) ;
}
void * stbds_hmdel_key ( void * a , size_t elemsize , void * key , size_t keysize , size_t keyoffset , int mode )
{
if ( a = = NULL ) {
return 0 ;
} else {
stbds_hash_index * table ;
void * raw_a = STBDS_HASH_TO_ARR ( a , elemsize ) ;
table = ( stbds_hash_index * ) stbds_header ( raw_a ) - > hash_table ;
stbds_temp ( raw_a ) = 0 ;
if ( table = = 0 ) {
return a ;
} else {
ptrdiff_t slot ;
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slot = stbds_hm_find_slot ( a , elemsize , key , keysize , keyoffset , mode ) ;
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if ( slot < 0 )
return a ;
else {
stbds_hash_bucket * b = & table - > storage [ slot > > STBDS_BUCKET_SHIFT ] ;
int i = slot & STBDS_BUCKET_MASK ;
ptrdiff_t old_index = b - > index [ i ] ;
ptrdiff_t final_index = ( ptrdiff_t ) stbds_arrlen ( raw_a ) - 1 - 1 ; // minus one for the raw_a vs a, and minus one for 'last'
STBDS_ASSERT ( slot < ( ptrdiff_t ) table - > slot_count ) ;
- - table - > used_count ;
+ + table - > tombstone_count ;
stbds_temp ( raw_a ) = 1 ;
STBDS_ASSERT ( table - > used_count > = 0 ) ;
//STBDS_ASSERT(table->tombstone_count < table->slot_count/4);
b - > hash [ i ] = STBDS_HASH_DELETED ;
b - > index [ i ] = STBDS_INDEX_DELETED ;
if ( mode = = STBDS_HM_STRING & & table - > string . mode = = STBDS_SH_STRDUP )
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STBDS_FREE ( NULL , * ( char * * ) ( ( char * ) a + elemsize * old_index ) ) ;
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// if indices are the same, memcpy is a no-op, but back-pointer-fixup will fail, so skip
if ( old_index ! = final_index ) {
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// swap delete
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memmove ( ( char * ) a + elemsize * old_index , ( char * ) a + elemsize * final_index , elemsize ) ;
// now find the slot for the last element
if ( mode = = STBDS_HM_STRING )
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slot = stbds_hm_find_slot ( a , elemsize , * ( char * * ) ( ( char * ) a + elemsize * old_index + keyoffset ) , keysize , keyoffset , mode ) ;
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else
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slot = stbds_hm_find_slot ( a , elemsize , ( char * ) a + elemsize * old_index + keyoffset , keysize , keyoffset , mode ) ;
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STBDS_ASSERT ( slot > = 0 ) ;
b = & table - > storage [ slot > > STBDS_BUCKET_SHIFT ] ;
i = slot & STBDS_BUCKET_MASK ;
STBDS_ASSERT ( b - > index [ i ] = = final_index ) ;
b - > index [ i ] = old_index ;
}
stbds_header ( raw_a ) - > length - = 1 ;
if ( table - > used_count < table - > used_count_shrink_threshold & & table - > slot_count > STBDS_BUCKET_LENGTH ) {
stbds_header ( raw_a ) - > hash_table = stbds_make_hash_index ( table - > slot_count > > 1 , table ) ;
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STBDS_FREE ( NULL , table ) ;
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STBDS_STATS ( + + stbds_hash_shrink ) ;
} else if ( table - > tombstone_count > table - > tombstone_count_threshold ) {
stbds_header ( raw_a ) - > hash_table = stbds_make_hash_index ( table - > slot_count , table ) ;
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STBDS_FREE ( NULL , table ) ;
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STBDS_STATS ( + + stbds_hash_rebuild ) ;
}
return a ;
}
}
}
/* NOTREACHED */
}
static char * stbds_strdup ( char * str )
{
// to keep replaceable allocator simple, we don't want to use strdup.
// rolling our own also avoids problem of strdup vs _strdup
size_t len = strlen ( str ) + 1 ;
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char * p = ( char * ) STBDS_REALLOC ( NULL , 0 , len ) ;
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memmove ( p , str , len ) ;
return p ;
}
# ifndef STBDS_STRING_ARENA_BLOCKSIZE_MIN
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# define STBDS_STRING_ARENA_BLOCKSIZE_MIN 512u
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# endif
# ifndef STBDS_STRING_ARENA_BLOCKSIZE_MAX
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# define STBDS_STRING_ARENA_BLOCKSIZE_MAX (1u<<20)
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# endif
char * stbds_stralloc ( stbds_string_arena * a , char * str )
{
char * p ;
size_t len = strlen ( str ) + 1 ;
if ( len > a - > remaining ) {
// compute the next blocksize
size_t blocksize = a - > block ;
// size is 512, 512, 1024, 1024, 2048, 2048, 4096, 4096, etc., so that
// there are log(SIZE) allocations to free when we destroy the table
blocksize = ( size_t ) ( STBDS_STRING_ARENA_BLOCKSIZE_MIN ) < < ( blocksize > > 1 ) ;
// if size is under 1M, advance to next blocktype
if ( blocksize < ( size_t ) ( STBDS_STRING_ARENA_BLOCKSIZE_MAX ) )
+ + a - > block ;
if ( len > blocksize ) {
// if string is larger than blocksize, then just allocate the full size.
// note that we still advance string_block so block size will continue
// increasing, so e.g. if somebody only calls this with 1000-long strings,
// eventually the arena will start doubling and handling those as well
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stbds_string_block * sb = ( stbds_string_block * ) STBDS_REALLOC ( NULL , 0 , sizeof ( * sb ) - 8 + len ) ;
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memmove ( sb - > storage , str , len ) ;
if ( a - > storage ) {
// insert it after the first element, so that we don't waste the space there
sb - > next = a - > storage - > next ;
a - > storage - > next = sb ;
} else {
sb - > next = 0 ;
a - > storage = sb ;
a - > remaining = 0 ; // this is redundant, but good for clarity
}
return sb - > storage ;
} else {
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stbds_string_block * sb = ( stbds_string_block * ) STBDS_REALLOC ( NULL , 0 , sizeof ( * sb ) - 8 + blocksize ) ;
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sb - > next = a - > storage ;
a - > storage = sb ;
a - > remaining = blocksize ;
}
}
STBDS_ASSERT ( len < = a - > remaining ) ;
p = a - > storage - > storage + a - > remaining - len ;
a - > remaining - = len ;
memmove ( p , str , len ) ;
return p ;
}
void stbds_strreset ( stbds_string_arena * a )
{
stbds_string_block * x , * y ;
x = a - > storage ;
while ( x ) {
y = x - > next ;
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STBDS_FREE ( NULL , x ) ;
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x = y ;
}
memset ( a , 0 , sizeof ( * a ) ) ;
}
# endif
//////////////////////////////////////////////////////////////////////////////
//
// UNIT TESTS
//
# ifdef STBDS_UNIT_TESTS
# include <stdio.h>
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# ifdef STBDS_ASSERT_WAS_UNDEFINED
# undef STBDS_ASSERT
# endif
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# ifndef STBDS_ASSERT
# define STBDS_ASSERT assert
# include <assert.h>
# endif
typedef struct { int key , b , c , d ; } stbds_struct ;
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typedef struct { int key [ 2 ] , b , c , d ; } stbds_struct2 ;
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static char buffer [ 256 ] ;
char * strkey ( int n )
{
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# if defined(_WIN32) && defined(__STDC_WANT_SECURE_LIB__)
sprintf_s ( buffer , sizeof ( buffer ) , " test_%d " , n ) ;
# else
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sprintf ( buffer , " test_%d " , n ) ;
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# endif
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return buffer ;
}
void stbds_unit_tests ( void )
{
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# if defined(_MSC_VER) && _MSC_VER <= 1200 && defined(__cplusplus)
// VC6 C++ doesn't like the template<> trick on unnamed structures, so do nothing!
STBDS_ASSERT ( 0 ) ;
# else
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const int testsize = 100000 ;
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const int testsize2 = testsize / 20 ;
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int * arr = NULL ;
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struct { int key ; int value ; } * intmap = NULL ;
struct { char * key ; int value ; } * strmap = NULL ;
struct { stbds_struct key ; int value ; } * map = NULL ;
stbds_struct * map2 = NULL ;
stbds_struct2 * map3 = NULL ;
stbds_string_arena sa = { 0 } ;
int key3 [ 2 ] = { 1 , 2 } ;
ptrdiff_t temp ;
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int i , j ;
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STBDS_ASSERT ( arrlen ( arr ) = = 0 ) ;
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for ( i = 0 ; i < 20000 ; i + = 50 ) {
for ( j = 0 ; j < i ; + + j )
arrpush ( arr , j ) ;
arrfree ( arr ) ;
}
for ( i = 0 ; i < 4 ; + + i ) {
arrpush ( arr , 1 ) ; arrpush ( arr , 2 ) ; arrpush ( arr , 3 ) ; arrpush ( arr , 4 ) ;
arrdel ( arr , i ) ;
arrfree ( arr ) ;
arrpush ( arr , 1 ) ; arrpush ( arr , 2 ) ; arrpush ( arr , 3 ) ; arrpush ( arr , 4 ) ;
arrdelswap ( arr , i ) ;
arrfree ( arr ) ;
}
for ( i = 0 ; i < 5 ; + + i ) {
arrpush ( arr , 1 ) ; arrpush ( arr , 2 ) ; arrpush ( arr , 3 ) ; arrpush ( arr , 4 ) ;
stbds_arrins ( arr , i , 5 ) ;
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STBDS_ASSERT ( arr [ i ] = = 5 ) ;
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if ( i < 4 )
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STBDS_ASSERT ( arr [ 4 ] = = 4 ) ;
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arrfree ( arr ) ;
}
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i = 1 ;
STBDS_ASSERT ( hmgeti ( intmap , i ) = = - 1 ) ;
hmdefault ( intmap , - 2 ) ;
STBDS_ASSERT ( hmgeti ( intmap , i ) = = - 1 ) ;
STBDS_ASSERT ( hmget ( intmap , i ) = = - 2 ) ;
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for ( i = 0 ; i < testsize ; i + = 2 )
hmput ( intmap , i , i * 5 ) ;
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for ( i = 0 ; i < testsize ; i + = 1 ) {
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if ( i & 1 ) STBDS_ASSERT ( hmget ( intmap , i ) = = - 2 ) ;
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else STBDS_ASSERT ( hmget ( intmap , i ) = = i * 5 ) ;
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if ( i & 1 ) STBDS_ASSERT ( hmget_ts ( intmap , i , temp ) = = - 2 ) ;
else STBDS_ASSERT ( hmget_ts ( intmap , i , temp ) = = i * 5 ) ;
}
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for ( i = 0 ; i < testsize ; i + = 2 )
hmput ( intmap , i , i * 3 ) ;
for ( i = 0 ; i < testsize ; i + = 1 )
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if ( i & 1 ) STBDS_ASSERT ( hmget ( intmap , i ) = = - 2 ) ;
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else STBDS_ASSERT ( hmget ( intmap , i ) = = i * 3 ) ;
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for ( i = 2 ; i < testsize ; i + = 4 )
hmdel ( intmap , i ) ; // delete half the entries
for ( i = 0 ; i < testsize ; i + = 1 )
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if ( i & 3 ) STBDS_ASSERT ( hmget ( intmap , i ) = = - 2 ) ;
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else STBDS_ASSERT ( hmget ( intmap , i ) = = i * 3 ) ;
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for ( i = 0 ; i < testsize ; i + = 1 )
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hmdel ( intmap , i ) ; // delete the rest of the entries
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for ( i = 0 ; i < testsize ; i + = 1 )
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STBDS_ASSERT ( hmget ( intmap , i ) = = - 2 ) ;
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hmfree ( intmap ) ;
for ( i = 0 ; i < testsize ; i + = 2 )
hmput ( intmap , i , i * 3 ) ;
hmfree ( intmap ) ;
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# if defined(__clang__) || defined(__GNUC__)
# ifndef __cplusplus
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intmap = NULL ;
hmput ( intmap , 15 , 7 ) ;
hmput ( intmap , 11 , 3 ) ;
hmput ( intmap , 9 , 5 ) ;
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STBDS_ASSERT ( hmget ( intmap , 9 ) = = 5 ) ;
STBDS_ASSERT ( hmget ( intmap , 11 ) = = 3 ) ;
STBDS_ASSERT ( hmget ( intmap , 15 ) = = 7 ) ;
# endif
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# endif
for ( i = 0 ; i < testsize ; + + i )
stralloc ( & sa , strkey ( i ) ) ;
strreset ( & sa ) ;
for ( j = 0 ; j < 2 ; + + j ) {
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STBDS_ASSERT ( shgeti ( strmap , " foo " ) = = - 1 ) ;
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if ( j = = 0 )
sh_new_strdup ( strmap ) ;
else
sh_new_arena ( strmap ) ;
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STBDS_ASSERT ( shgeti ( strmap , " foo " ) = = - 1 ) ;
shdefault ( strmap , - 2 ) ;
STBDS_ASSERT ( shgeti ( strmap , " foo " ) = = - 1 ) ;
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for ( i = 0 ; i < testsize ; i + = 2 )
shput ( strmap , strkey ( i ) , i * 3 ) ;
for ( i = 0 ; i < testsize ; i + = 1 )
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if ( i & 1 ) STBDS_ASSERT ( shget ( strmap , strkey ( i ) ) = = - 2 ) ;
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else STBDS_ASSERT ( shget ( strmap , strkey ( i ) ) = = i * 3 ) ;
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for ( i = 2 ; i < testsize ; i + = 4 )
shdel ( strmap , strkey ( i ) ) ; // delete half the entries
for ( i = 0 ; i < testsize ; i + = 1 )
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if ( i & 3 ) STBDS_ASSERT ( shget ( strmap , strkey ( i ) ) = = - 2 ) ;
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else STBDS_ASSERT ( shget ( strmap , strkey ( i ) ) = = i * 3 ) ;
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for ( i = 0 ; i < testsize ; i + = 1 )
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shdel ( strmap , strkey ( i ) ) ; // delete the rest of the entries
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for ( i = 0 ; i < testsize ; i + = 1 )
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STBDS_ASSERT ( shget ( strmap , strkey ( i ) ) = = - 2 ) ;
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shfree ( strmap ) ;
}
{
struct { char * key ; char value ; } * hash = NULL ;
char name [ 4 ] = " jen " ;
shput ( hash , " bob " , ' h ' ) ;
shput ( hash , " sally " , ' e ' ) ;
shput ( hash , " fred " , ' l ' ) ;
shput ( hash , " jen " , ' x ' ) ;
shput ( hash , " doug " , ' o ' ) ;
shput ( hash , name , ' l ' ) ;
shfree ( hash ) ;
}
for ( i = 0 ; i < testsize ; i + = 2 ) {
stbds_struct s = { i , i * 2 , i * 3 , i * 4 } ;
hmput ( map , s , i * 5 ) ;
}
for ( i = 0 ; i < testsize ; i + = 1 ) {
stbds_struct s = { i , i * 2 , i * 3 , i * 4 } ;
stbds_struct t = { i , i * 2 , i * 3 + 1 , i * 4 } ;
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if ( i & 1 ) STBDS_ASSERT ( hmget ( map , s ) = = 0 ) ;
else STBDS_ASSERT ( hmget ( map , s ) = = i * 5 ) ;
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if ( i & 1 ) STBDS_ASSERT ( hmget_ts ( map , s , temp ) = = 0 ) ;
else STBDS_ASSERT ( hmget_ts ( map , s , temp ) = = i * 5 ) ;
//STBDS_ASSERT(hmget(map, t.key) == 0);
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}
for ( i = 0 ; i < testsize ; i + = 2 ) {
stbds_struct s = { i , i * 2 , i * 3 , i * 4 } ;
hmputs ( map2 , s ) ;
}
hmfree ( map ) ;
for ( i = 0 ; i < testsize ; i + = 1 ) {
stbds_struct s = { i , i * 2 , i * 3 , i * 4 } ;
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stbds_struct t = { i , i * 2 , i * 3 + 1 , i * 4 } ;
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if ( i & 1 ) STBDS_ASSERT ( hmgets ( map2 , s . key ) . d = = 0 ) ;
else STBDS_ASSERT ( hmgets ( map2 , s . key ) . d = = i * 4 ) ;
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//STBDS_ASSERT(hmgetp(map2, t.key) == 0);
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}
hmfree ( map2 ) ;
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for ( i = 0 ; i < testsize ; i + = 2 ) {
stbds_struct2 s = { { i , i * 2 } , i * 3 , i * 4 , i * 5 } ;
hmputs ( map3 , s ) ;
}
for ( i = 0 ; i < testsize ; i + = 1 ) {
stbds_struct2 s = { { i , i * 2 } , i * 3 , i * 4 , i * 5 } ;
stbds_struct2 t = { { i , i * 2 } , i * 3 + 1 , i * 4 , i * 5 } ;
if ( i & 1 ) STBDS_ASSERT ( hmgets ( map3 , s . key ) . d = = 0 ) ;
else STBDS_ASSERT ( hmgets ( map3 , s . key ) . d = = i * 5 ) ;
//STBDS_ASSERT(hmgetp(map3, t.key) == 0);
}
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# endif
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}
# endif
/*
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
This software is available under 2 licenses - - choose whichever you prefer .
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
ALTERNATIVE A - MIT License
Copyright ( c ) 2019 Sean Barrett
Permission is hereby granted , free of charge , to any person obtaining a copy of
this software and associated documentation files ( the " Software " ) , to deal in
the Software without restriction , including without limitation the rights to
use , copy , modify , merge , publish , distribute , sublicense , and / or sell copies
of the Software , and to permit persons to whom the Software is furnished to do
so , subject to the following conditions :
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software .
THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER
LIABILITY , WHETHER IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM ,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE .
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
ALTERNATIVE B - Public Domain ( www . unlicense . org )
This is free and unencumbered software released into the public domain .
Anyone is free to copy , modify , publish , use , compile , sell , or distribute this
software , either in source code form or as a compiled binary , for any purpose ,
commercial or non - commercial , and by any means .
In jurisdictions that recognize copyright laws , the author or authors of this
software dedicate any and all copyright interest in the software to the public
domain . We make this dedication for the benefit of the public at large and to
the detriment of our heirs and successors . We intend this dedication to be an
overt act of relinquishment in perpetuity of all present and future rights to
this software under copyright law .
THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL THE
AUTHORS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER LIABILITY , WHETHER IN AN
ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM , OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE .
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