darling-libobjc2/sarray2.h

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/**
* Sparse Array
*
* Author: David Chisnall
*
* License: See COPYING.MIT
*
*/
#ifndef _SARRAY_H_INCLUDED_
#define _SARRAY_H_INCLUDED_
#include <stdint.h>
#include <stdlib.h>
#include "visibility.h"
/**
* Sparse arrays, used to implement dispatch tables. Current implementation is
* quite RAM-intensive and could be optimised. Maps 32-bit integers to pointers.
*
* Note that deletion from the array is not supported. This allows accesses to
* be done without locking; the worst that can happen is that the caller gets
* an old value (and if this is important to you then you should be doing your
* own locking). For this reason, you should be very careful when deleting a
* sparse array that there are no references to it held by other threads.
*/
typedef struct
{
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/**
* Mask value applied to the index when generating an index in this
* sub-array.
*/
uint32_t mask;
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/**
* Number of bits that the masked value should be right shifted by to get
* the index in the subarray. If this value is greater than zero, then the
* value in the array is another SparseArray*.
*/
uint32_t shift;
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/**
* The reference count for this. Used for copy-on-write. When making a
* copy of a sparse array, we only copy the root node, and increment the
* reference count of the remaining nodes. When modifying any leaf node,
* we copy if its reference count is greater than one.
*/
uint32_t refCount;
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/**
* The data stored in this sparse array node.
*/
void ** data;
} SparseArray;
/**
* Turn an index in the array into an index in the current depth.
*/
#define MASK_INDEX(index) \
((index & sarray->mask) >> sarray->shift)
#define SARRAY_EMPTY ((void*)0)
/**
* Look up the specified value in the sparse array. This is used in message
* dispatch and so has been put in the header to allow compilers to inline it,
* even though this breaks the abstraction.
*/
static inline void* SparseArrayLookup(SparseArray * sarray, uint32_t index)
{
// This unrolled version of the commented-out segment below only works with
// sarrays that use one-byte leaves. It's really ugly, but seems to be faster.
// With this version, we get the same performance as the old GNU code, but
// with about half the memory usage.
uint32_t i = index;
switch (sarray->shift)
{
default: UNREACHABLE("broken sarray");
case 0:
return sarray->data[i & 0xff];
case 8:
return
((SparseArray*)sarray->data[(i & 0xff00)>>8])->data[(i & 0xff)];
case 16:
return
((SparseArray*)((SparseArray*)
sarray->data[(i & 0xff0000)>>16])->
data[(i & 0xff00)>>8])->data[(i & 0xff)];
case 24:
return
((SparseArray*)((SparseArray*)((SparseArray*)
sarray->data[(i & 0xff000000)>>24])->
data[(i & 0xff0000)>>16])->
data[(i & 0xff00)>>8])->data[(i & 0xff)];
}
/*
while(sarray->shift > 0)
{
uint32_t i = MASK_INDEX(index);
sarray = (SparseArray*) sarray->data[i];
}
uint32_t i = index & sarray->mask;
return sarray->data[i];
*/
}
/**
* Create a new sparse array.
*/
SparseArray *SparseArrayNew();
/**
* Creates a new sparse array with the specified capacity. The depth indicates
* the number of bits to use for the key. Must be a value between 8 and 32 and
* should ideally be a multiple of base_shift.
*/
SparseArray *SparseArrayNewWithDepth(uint32_t depth);
/**
* Returns a new sparse array created by adding this one as the first child
* node in an expanded one.
*/
SparseArray *SparseArrayExpandingArray(SparseArray *sarray, uint32_t new_depth);
/**
* Insert a value at the specified index.
*/
void SparseArrayInsert(SparseArray * sarray, uint32_t index, void * value);
/**
* Destroy the sparse array. Note that calling this while other threads are
* performing lookups is guaranteed to break.
*/
void SparseArrayDestroy(SparseArray * sarray);
/**
* Iterate through the array. Returns the next non-NULL value after index and
* sets index to the following value. For example, an array containing values
* at 0 and 10 will, if called with index set to 0 first return the value at 0
* and set index to 1. A subsequent call with index set to 1 will return the
* value at 10 and set index to 11.
*/
void * SparseArrayNext(SparseArray * sarray, uint32_t * index);
/**
* Creates a copy of the sparse array.
*/
SparseArray *SparseArrayCopy(SparseArray * sarray);
/**
* Returns the total memory usage of a sparse array.
*/
int SparseArraySize(SparseArray *sarray);
#endif //_SARRAY_H_INCLUDED_