sparsemap/include/sparsemap.h

342 lines
14 KiB
C

/*
* Copyright (c) 2024 Gregory Burd <greg@burd.me>. All rights reserved.
*
* 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.
*/
/*
* Sparsemap
*
* This is an implementation for a sparse, compressed bitmap. It is resizable
* and mutable, with reasonable performance for random access modifications
* and lookups.
*
* The implementation is separated into tiers.
*
* Tier 0 (lowest): bits are stored in a sm_bitvec_t (uint64_t).
*
* Tier 1 (middle): multiple sm_bitvec_t are managed in a chunk map. The chunk
* map only stores those sm_bitvec_t that have a mixed payload of bits (i.e.
* some bits are 1, some are 0). As soon as ALL bits in a sm_bitvec_t are
* identical, this sm_bitvec_t is no longer stored, it is compressed.
*
* The chunk maps store additional flags (2 bit) for each sm_bitvec_t in an
* additional word (same size as the sm_bitvec_t itself).
*
* 00 11 22 33
* ^-- descriptor for sm_bitvec_t 1
* ^-- descriptor for sm_bitvec_t 2
* ^-- descriptor for sm_bitvec_t 3
* ^-- descriptor for sm_bitvec_t 4
*
* Those flags (*) can have one of the following values:
*
* 00 The sm_bitvec_t is all zero -> sm_bitvec_t is not stored
* 11 The sm_bitvec_t is all one -> sm_bitvec_t is not stored
* 10 The sm_bitvec_t contains a bitmap -> sm_bitvec_t is stored
* 01 The sm_bitvec_t is not used (**)
*
* The serialized size of a chunk map in memory therefore is at least
* one sm_bitvec_t for the flags, and (optionally) additional sm_bitvec_ts
* if they are required.
*
* (*) The code comments often use the Erlang format for binary
* representation, i.e. 2#10 for (binary) 01.
*
* (**) This flag is set to reduce the capacity of a chunk map.
*
* Tier 2 (highest): the Sparsemap manages multiple chunk maps. Each chunk
* has its own offset (relative to the offset of the Sparsemap). In
* addition, the Sparsemap manages the memory of the chunk maps, and
* is able to grow or shrink that memory as required.
*/
#ifndef SPARSEMAP_H
#define SPARSEMAP_H
#include <limits.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#if defined(__cplusplus)
extern "C" {
#endif
/*
* The public interface for a sparse bit-mapped index, a "sparse map".
*
* |sm_idx_t| is the user's numerical data type which is mapped to a single bit
* in the bitmap. Usually this is uint32_t or uint64_t. |sm_bitvec_t| is the
* storage type for a bit vector used by the __sm_chunk_t internal maps.
* Usually this is an uint64_t.
*/
typedef struct sparsemap sparsemap_t;
typedef size_t sparsemap_idx_t;
#define SPARSEMAP_IDX_MAX SIZE_MAX
#define SPARSEMAP_FOUND(x) ((x) != SPARSEMAP_IDX_MAX)
#define SPARSEMAP_NOT_FOUND(x) ((x) == SPARSEMAP_IDX_MAX)
typedef uint32_t sm_idx_t;
typedef uint64_t sm_bitvec_t;
/** @brief Allocate a new, empty sparsemap_t with a buffer of \b size on the
* heap to use for storage of bitmap data.
*
* The buffer used for the bitmap is allocated in the same heap allocation as
* the structure, this means that you only need to call free() on the returned
* object to free all resources. Using this method allows you to grow the
* buffer size by calling #sparsemap_set_data_size(). This function calls
* #sparsemap_init().
*
* @param[in] size The starting size of the buffer used for the bitmap, default
* is 1024 bytes.
* @returns The newly allocated sparsemap reference.
*/
sparsemap_t *sparsemap(size_t size);
/** @brief Allocate a new, copy of the \b other sparsemap_t.
*
* @param[in] other The sparsemap to copy.
*/
sparsemap_t *sparsemap_copy(sparsemap_t *other);
/** @brief Allocate a new, empty sparsemap_t that references (wraps) the buffer
* \b data of \b size bytes to use for storage of bitmap data.
*
* This function allocates a new sparsemap_t but not the buffer which is
* provided by the caller as \b data which can be allocated on the stack or
* heap. Caller is responsible for calling free() on the returned heap object
* and releasing the memory used for \b data. Resizing the buffer is only
* supported when the heap object for the map includes the buffer and the
* \b data offset supplied is relative to the object (see #sparsemap()).
* This function calls #sparsemap_init().
*
* @param[in] data A heap or stack memory buffer of \b size for use storing
* bitmap data.
* @param[in] size The size of the buffer \b data used for the bitmap.
* @returns The newly allocated sparsemap reference.
*/
sparsemap_t *sparsemap_wrap(uint8_t *data, size_t size);
/** @brief Initialize an existing sparsemap_t by assigning \b data of \b size
* bytes for storage of bitmap data.
*
* Given the address of an existing \b map allocated on the stack or heap this
* function will initialize the data structure and use the provided \b data of
* \b size for bitmap data. Caller is responsible for all memory management.
* Resizing the buffer is not directly supported, you
* may resize it and call #sparsemap_set_data_size() and then ensure that should
* the address of the object changed you need to update it by calling #sparsemap_
* m_data field.
*
* @param[in] map The sparsemap reference.
* @param[in] data A heap or stack memory buffer of \b size for use storing
* bitmap data.
* @param[in] size The size of the buffer \b data used for the bitmap.
*/
void sparsemap_init(sparsemap_t *map, uint8_t *data, size_t size);
/** @brief Opens, without initializing, an existing sparsemap contained within
* the specified buffer.
*
* Given the address of an existing \b map this function will assign to the
* provided data structure \b data of \b size for bitmap data. Caller is
* responsible for all memory management. Use this when as a way to
* "deserialize" bytes and make them ready for use as a bitmap.
*
* @param[in] map The sparsemap reference.
* @param[in] data A heap or stack memory buffer of \b size for use storing
* bitmap data.
* @param[in] size The size of the buffer \b data used for the bitmap.
*/
void sparsemap_open(sparsemap_t *map, uint8_t *data, size_t size);
/** @brief Resets values and empties the buffer making it ready to accept new
* data but does not free the memory.
*
* @param[in] map The sparsemap reference.
*/
void sparsemap_clear(sparsemap_t *map);
/** @brief Update the size of the buffer \b data used for storing the bitmap.
*
* When called with \b data NULL on a \b map that was created with #sparsemap()
* this function will reallocate the storage for both the map and data possibly
* changing the address of the map itself so it is important for the caller to
* update all references to this map to the address returned in this scenario.
* Access to stale references will result in memory violations and program
* termination. Caller is not required to free() the old address, only the new
* one should it have changed. This uses #realloc() under the covers, all
* caveats apply here as well.
*
* When called referencing a \b map that was allocate by the caller this
* function will only update the values within the data structure.
*
* @param[in] map The sparsemap reference.
* @param[in] size The desired size of the buffer \b data used for the bitmap.
* @returns The -- potentially changed -- sparsemap reference, or NULL should a
* #realloc() fail (\b ENOMEM)
* @note The resizing of caller supplied allocated objects is not yet fully
* supported.
*/
sparsemap_t *sparsemap_set_data_size(sparsemap_t *map, uint8_t *data, size_t size);
/** @brief Calculate remaining capacity, approaches 0 when full.
*
* Provides an estimate in the range [0.0, 100.0] of the remaining capacity of
* the buffer storing bitmap data. This can change up or down as more data
* is added/removed due to the method for compressed representation, do not
* expect a smooth progression either direction. This is a rough estimate only
* and may also jump in value after seemingly indiscriminate changes to the map.
*
* @param[in] map The sparsemap reference.
* @returns an estimate for remaining capacity that approaches 0.0 when full or
* 100.0 when empty
*/
double sparsemap_capacity_remaining(sparsemap_t *map);
/** @brief Returns the capacity of the underlying byte array in bytes.
*
* Specifically, this returns the byte \b size provided for the underlying
* buffer used to store bitmap data.
*
* @param[in] map The sparsemap reference.
* @returns byte size of the buffer used for storing bitmap data
*/
size_t sparsemap_get_capacity(sparsemap_t *map);
/** @brief Returns the value of a bit at index \b idx, either true for "set" (1)
* or \b false for "unset" (0).
*
* @param[in] map The sparsemap reference.
* @param[in] idx The 0-based offset into the bitmap index to examine.
* @returns either true or false
*/
bool sparsemap_is_set(sparsemap_t *map, sparsemap_idx_t idx);
/** @brief Sets the bit at index \b idx to \b value.
*
* A sparsemap has a fixed size buffer with a capacity that can be exhausted by
* when calling this function. In such cases the return value is not equal to
* the provided \b idx and errno is set to ENOSPC. In such situations it is
* possible to grow the data size and retry the set() operation under certain
* circumstances (see #sparsemap() and #sparsemap_set_data_size()).
*
* @param[in] map The sparsemap reference.
* @param[in] idx The 0-based offset into the bitmap index to modify.
* @returns the \b idx supplied on success or SPARSEMAP_IDX_MAX on error
* with \b errno set to ENOSPC when the map is full.
*/
sparsemap_idx_t sparsemap_set(sparsemap_t *map, sparsemap_idx_t idx, bool value);
/** @brief Returns the byte size of the data buffer that has been used thus far.
*
* @param[in] map The sparsemap reference.
* @returns the byte size of the data buffer that has been used thus far
*/
size_t sparsemap_get_size(sparsemap_t *map);
/** @brief Provides a method for a callback function to examine every bit set in
* the index.
*
* This decompresses the whole bitmap and invokes #scanner() passing an array
* of the positions of set bits in order from 0 index to the end of the map.
*
* @param[in] map The sparsemap reference.
* @param[in] skip Start the scan after \b skip position in the map.
* @param[in] aux Auxiliary information passed to the scanner.
*/
void sparsemap_scan(sparsemap_t *map, void (*scanner)(sm_idx_t vec[], size_t n, void *aux), size_t skip, void *aux);
/** @brief Merges the values from \b other into \b map, \b other is unchanged.
*
* @param[in] map The sparsemap reference.
* @param[in] other The bitmap to merge into \b map.
* @returns 0 on success, or sets errno to ENOSPC and returns the amount of
* additional space required to successfully merge the maps.
*/
int sparsemap_merge(sparsemap_t *map, sparsemap_t *other);
/** @brief Splits the bitmap by assigning all bits starting at \b offset to the
* \b other bitmap while removing them from \b map.
*
* The \b other bitmap is expected to be empty.
*
* @param[in] map The sparsemap reference.
* @param[in] offset The 0-based offset into the bitmap at which to split.
* @param[in] other The bitmap into which we place the split.
*/
void sparsemap_split(sparsemap_t *map, sparsemap_idx_t offset, sparsemap_t *other);
/** @brief Finds the index of the \b n'th bit set to \b value.
*
* Locates the \b n'th bit either set, \b value is true, or unset, \b value is
* false, from the start of the bitmap.
* So, if your bit pattern is: ```1101 1110 1010 1101 1011 1110 1110 1111``` and
* you request the first set bit the result is `0` (meaning the 1st bit in the
* map which is index 0 because this is 0-based indexing). The first unset bit
* is `2` (or the third bit in the pattern). When n is 3 and value is true the
* result would be `3` (the fourth bit, or the third set bit which is at index
* 3 when 0-based).
*
* @param[in] map The sparsemap reference.
* @param[in] n Specifies how many bits to ignore (when n=2 return the position
* of the third matching bit).
* @param[in] value Determines if the search is to examine set (true) or unset
* (false) bits in the bitmap index.
* @returns the 0-based index of the located bit position within the map; when
* not found either SPARSEMAP_IDX_MAX.
*/
sparsemap_idx_t sparsemap_select(sparsemap_t *map, sparsemap_idx_t n, bool value);
/** @brief Counts the bits matching \b value in the provided range, [\b x, \b
* y].
*
* Counts the set, \b value is true, or unset, \b value is false, bits starting
* at the \b idx'th bit (0-based) in the range [\b x, \b y] (inclusive on either
* end). If range is [0, 0] this examines 1 bit, the first one in the map, and
* returns 1 if value is true and the bit was set.
*
* @param[in] map The sparsemap reference.
* @param[in] x 0-based start of the inclusive range to examine.
* @param[in] y 0-based end of the inclusive range to examine.
* @param[in] value Determines if the scan is to count the set (true) or unset
* (false) bits in the range.
* @returns the count of bits found within the range that match the \b value
*/
size_t sparsemap_rank(sparsemap_t *map, size_t x, size_t y, bool value);
/** @brief Locates the first contiguous set of bits of \b len starting at \b idx
* matching \b value in the bitmap.
*
* @param[in] map The sparsemap reference.
* @param[in] start 0-based start of search within the bitmap.
* @param[in] len The length of contiguous bits we're seeking.
* @param[in] value Determines if the scan is to find all set (true) or unset
* (false) bits of \b len.
* @returns the index of the first bit matching the criteria; when not found
* found SPARSEMAP_IDX_MAX
*/
size_t sparsemap_span(sparsemap_t *map, sparsemap_idx_t start, size_t len, bool value);
#if defined(__cplusplus)
}
#endif
#endif /* !defined(SPARSEMAP_H) */