llvm/lib/Support/rpmalloc/rpmalloc.h - toolchain/llvm-project - Git at Google

 //===---------------------- rpmalloc.h ------------------*- C -*-=============//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // This library provides a cross-platform lock free thread caching malloc
 // implementation in C11.
 //
 //===----------------------------------------------------------------------===//

 #pragma once

 #include <stddef.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 #if defined(__clang__) || defined(__GNUC__)
 #define RPMALLOC_EXPORT __attribute__((visibility("default")))
 #define RPMALLOC_ALLOCATOR
 #if (defined(__clang_major__) && (__clang_major__ < 4)) ||                     \
     (defined(__GNUC__) && defined(ENABLE_PRELOAD) && ENABLE_PRELOAD)
 #define RPMALLOC_ATTRIB_MALLOC
 #define RPMALLOC_ATTRIB_ALLOC_SIZE(size)
 #define RPMALLOC_ATTRIB_ALLOC_SIZE2(count, size)
 #else
 #define RPMALLOC_ATTRIB_MALLOC __attribute__((__malloc__))
 #define RPMALLOC_ATTRIB_ALLOC_SIZE(size) __attribute__((alloc_size(size)))
 #define RPMALLOC_ATTRIB_ALLOC_SIZE2(count, size)                               \
   __attribute__((alloc_size(count, size)))
 #endif
 #define RPMALLOC_CDECL
 #elif defined(_MSC_VER)
 #define RPMALLOC_EXPORT
 #define RPMALLOC_ALLOCATOR __declspec(allocator) __declspec(restrict)
 #define RPMALLOC_ATTRIB_MALLOC
 #define RPMALLOC_ATTRIB_ALLOC_SIZE(size)
 #define RPMALLOC_ATTRIB_ALLOC_SIZE2(count, size)
 #define RPMALLOC_CDECL __cdecl
 #else
 #define RPMALLOC_EXPORT
 #define RPMALLOC_ALLOCATOR
 #define RPMALLOC_ATTRIB_MALLOC
 #define RPMALLOC_ATTRIB_ALLOC_SIZE(size)
 #define RPMALLOC_ATTRIB_ALLOC_SIZE2(count, size)
 #define RPMALLOC_CDECL
 #endif

 //! Define RPMALLOC_CONFIGURABLE to enable configuring sizes. Will introduce
 //  a very small overhead due to some size calculations not being compile time
 //  constants
 #ifndef RPMALLOC_CONFIGURABLE
 #define RPMALLOC_CONFIGURABLE 0
 #endif

 //! Define RPMALLOC_FIRST_CLASS_HEAPS to enable heap based API (rpmalloc_heap_*
 //! functions).
 //  Will introduce a very small overhead to track fully allocated spans in heaps
 #ifndef RPMALLOC_FIRST_CLASS_HEAPS
 #define RPMALLOC_FIRST_CLASS_HEAPS 0
 #endif

 //! Flag to rpaligned_realloc to not preserve content in reallocation
 #define RPMALLOC_NO_PRESERVE 1
 //! Flag to rpaligned_realloc to fail and return null pointer if grow cannot be
 //! done in-place,
 //  in which case the original pointer is still valid (just like a call to
 //  realloc which failes to allocate a new block).
 #define RPMALLOC_GROW_OR_FAIL 2

 typedef struct rpmalloc_global_statistics_t {
   //! Current amount of virtual memory mapped, all of which might not have been
   //! committed (only if ENABLE_STATISTICS=1)
   size_t mapped;
   //! Peak amount of virtual memory mapped, all of which might not have been
   //! committed (only if ENABLE_STATISTICS=1)
   size_t mapped_peak;
   //! Current amount of memory in global caches for small and medium sizes
   //! (<32KiB)
   size_t cached;
   //! Current amount of memory allocated in huge allocations, i.e larger than
   //! LARGE_SIZE_LIMIT which is 2MiB by default (only if ENABLE_STATISTICS=1)
   size_t huge_alloc;
   //! Peak amount of memory allocated in huge allocations, i.e larger than
   //! LARGE_SIZE_LIMIT which is 2MiB by default (only if ENABLE_STATISTICS=1)
   size_t huge_alloc_peak;
   //! Total amount of memory mapped since initialization (only if
   //! ENABLE_STATISTICS=1)
   size_t mapped_total;
   //! Total amount of memory unmapped since initialization  (only if
   //! ENABLE_STATISTICS=1)
   size_t unmapped_total;
 } rpmalloc_global_statistics_t;

 typedef struct rpmalloc_thread_statistics_t {
   //! Current number of bytes available in thread size class caches for small
   //! and medium sizes (<32KiB)
   size_t sizecache;
   //! Current number of bytes available in thread span caches for small and
   //! medium sizes (<32KiB)
   size_t spancache;
   //! Total number of bytes transitioned from thread cache to global cache (only
   //! if ENABLE_STATISTICS=1)
   size_t thread_to_global;
   //! Total number of bytes transitioned from global cache to thread cache (only
   //! if ENABLE_STATISTICS=1)
   size_t global_to_thread;
   //! Per span count statistics (only if ENABLE_STATISTICS=1)
   struct {
     //! Currently used number of spans
     size_t current;
     //! High water mark of spans used
     size_t peak;
     //! Number of spans transitioned to global cache
     size_t to_global;
     //! Number of spans transitioned from global cache
     size_t from_global;
     //! Number of spans transitioned to thread cache
     size_t to_cache;
     //! Number of spans transitioned from thread cache
     size_t from_cache;
     //! Number of spans transitioned to reserved state
     size_t to_reserved;
     //! Number of spans transitioned from reserved state
     size_t from_reserved;
     //! Number of raw memory map calls (not hitting the reserve spans but
     //! resulting in actual OS mmap calls)
     size_t map_calls;
   } span_use[64];
   //! Per size class statistics (only if ENABLE_STATISTICS=1)
   struct {
     //! Current number of allocations
     size_t alloc_current;
     //! Peak number of allocations
     size_t alloc_peak;
     //! Total number of allocations
     size_t alloc_total;
     //! Total number of frees
     size_t free_total;
     //! Number of spans transitioned to cache
     size_t spans_to_cache;
     //! Number of spans transitioned from cache
     size_t spans_from_cache;
     //! Number of spans transitioned from reserved state
     size_t spans_from_reserved;
     //! Number of raw memory map calls (not hitting the reserve spans but
     //! resulting in actual OS mmap calls)
     size_t map_calls;
   } size_use[128];
 } rpmalloc_thread_statistics_t;

 typedef struct rpmalloc_config_t {
   //! Map memory pages for the given number of bytes. The returned address MUST
   //! be
   //  aligned to the rpmalloc span size, which will always be a power of two.
   //  Optionally the function can store an alignment offset in the offset
   //  variable in case it performs alignment and the returned pointer is offset
   //  from the actual start of the memory region due to this alignment. The
   //  alignment offset will be passed to the memory unmap function. The
   //  alignment offset MUST NOT be larger than 65535 (storable in an uint16_t),
   //  if it is you must use natural alignment to shift it into 16 bits. If you
   //  set a memory_map function, you must also set a memory_unmap function or
   //  else the default implementation will be used for both. This function must
   //  be thread safe, it can be called by multiple threads simultaneously.
   void *(*memory_map)(size_t size, size_t *offset);
   //! Unmap the memory pages starting at address and spanning the given number
   //! of bytes.
   //  If release is set to non-zero, the unmap is for an entire span range as
   //  returned by a previous call to memory_map and that the entire range should
   //  be released. The release argument holds the size of the entire span range.
   //  If release is set to 0, the unmap is a partial decommit of a subset of the
   //  mapped memory range. If you set a memory_unmap function, you must also set
   //  a memory_map function or else the default implementation will be used for
   //  both. This function must be thread safe, it can be called by multiple
   //  threads simultaneously.
   void (*memory_unmap)(void *address, size_t size, size_t offset,
                        size_t release);
   //! Called when an assert fails, if asserts are enabled. Will use the standard
   //! assert()
   //  if this is not set.
   void (*error_callback)(const char *message);
   //! Called when a call to map memory pages fails (out of memory). If this
   //! callback is
   //  not set or returns zero the library will return a null pointer in the
   //  allocation call. If this callback returns non-zero the map call will be
   //  retried. The argument passed is the number of bytes that was requested in
   //  the map call. Only used if the default system memory map function is used
   //  (memory_map callback is not set).
   int (*map_fail_callback)(size_t size);
   //! Size of memory pages. The page size MUST be a power of two. All memory
   //! mapping
   //  requests to memory_map will be made with size set to a multiple of the
   //  page size. Used if RPMALLOC_CONFIGURABLE is defined to 1, otherwise system
   //  page size is used.
   size_t page_size;
   //! Size of a span of memory blocks. MUST be a power of two, and in
   //! [4096,262144]
   //  range (unless 0 - set to 0 to use the default span size). Used if
   //  RPMALLOC_CONFIGURABLE is defined to 1.
   size_t span_size;
   //! Number of spans to map at each request to map new virtual memory blocks.
   //! This can
   //  be used to minimize the system call overhead at the cost of virtual memory
   //  address space. The extra mapped pages will not be written until actually
   //  used, so physical committed memory should not be affected in the default
   //  implementation. Will be aligned to a multiple of spans that match memory
   //  page size in case of huge pages.
   size_t span_map_count;
   //! Enable use of large/huge pages. If this flag is set to non-zero and page
   //! size is
   //  zero, the allocator will try to enable huge pages and auto detect the
   //  configuration. If this is set to non-zero and page_size is also non-zero,
   //  the allocator will assume huge pages have been configured and enabled
   //  prior to initializing the allocator. For Windows, see
   //  https://docs.microsoft.com/en-us/windows/desktop/memory/large-page-support
   //  For Linux, see https://www.kernel.org/doc/Documentation/vm/hugetlbpage.txt
   int enable_huge_pages;
   //! Respectively allocated pages and huge allocated pages names for systems
   //  supporting it to be able to distinguish among anonymous regions.
   const char *page_name;
   const char *huge_page_name;
 } rpmalloc_config_t;

 //! Initialize allocator with default configuration
 RPMALLOC_EXPORT int rpmalloc_initialize(void);

 //! Initialize allocator with given configuration
 RPMALLOC_EXPORT int rpmalloc_initialize_config(const rpmalloc_config_t *config);

 //! Get allocator configuration
 RPMALLOC_EXPORT const rpmalloc_config_t *rpmalloc_config(void);

 //! Finalize allocator
 RPMALLOC_EXPORT void rpmalloc_finalize(void);

 //! Initialize allocator for calling thread
 RPMALLOC_EXPORT void rpmalloc_thread_initialize(void);

 //! Finalize allocator for calling thread
 RPMALLOC_EXPORT void rpmalloc_thread_finalize(int release_caches);

 //! Perform deferred deallocations pending for the calling thread heap
 RPMALLOC_EXPORT void rpmalloc_thread_collect(void);

 //! Query if allocator is initialized for calling thread
 RPMALLOC_EXPORT int rpmalloc_is_thread_initialized(void);

 //! Get per-thread statistics
 RPMALLOC_EXPORT void
 rpmalloc_thread_statistics(rpmalloc_thread_statistics_t *stats);

 //! Get global statistics
 RPMALLOC_EXPORT void
 rpmalloc_global_statistics(rpmalloc_global_statistics_t *stats);

 //! Dump all statistics in human readable format to file (should be a FILE*)
 RPMALLOC_EXPORT void rpmalloc_dump_statistics(void *file);

 //! Allocate a memory block of at least the given size
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpmalloc(size_t size) RPMALLOC_ATTRIB_MALLOC RPMALLOC_ATTRIB_ALLOC_SIZE(1);

 //! Free the given memory block
 RPMALLOC_EXPORT void rpfree(void *ptr);

 //! Allocate a memory block of at least the given size and zero initialize it
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpcalloc(size_t num, size_t size) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE2(1, 2);

 //! Reallocate the given block to at least the given size
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rprealloc(void *ptr, size_t size) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE(2);

 //! Reallocate the given block to at least the given size and alignment,
 //  with optional control flags (see RPMALLOC_NO_PRESERVE).
 //  Alignment must be a power of two and a multiple of sizeof(void*),
 //  and should ideally be less than memory page size. A caveat of rpmalloc
 //  internals is that this must also be strictly less than the span size
 //  (default 64KiB)
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpaligned_realloc(void *ptr, size_t alignment, size_t size, size_t oldsize,
                   unsigned int flags) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE(3);

 //! Allocate a memory block of at least the given size and alignment.
 //  Alignment must be a power of two and a multiple of sizeof(void*),
 //  and should ideally be less than memory page size. A caveat of rpmalloc
 //  internals is that this must also be strictly less than the span size
 //  (default 64KiB)
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpaligned_alloc(size_t alignment, size_t size) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE(2);

 //! Allocate a memory block of at least the given size and alignment, and zero
 //! initialize it.
 //  Alignment must be a power of two and a multiple of sizeof(void*),
 //  and should ideally be less than memory page size. A caveat of rpmalloc
 //  internals is that this must also be strictly less than the span size
 //  (default 64KiB)
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpaligned_calloc(size_t alignment, size_t num,
                  size_t size) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE2(2, 3);

 //! Allocate a memory block of at least the given size and alignment.
 //  Alignment must be a power of two and a multiple of sizeof(void*),
 //  and should ideally be less than memory page size. A caveat of rpmalloc
 //  internals is that this must also be strictly less than the span size
 //  (default 64KiB)
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpmemalign(size_t alignment, size_t size) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE(2);

 //! Allocate a memory block of at least the given size and alignment.
 //  Alignment must be a power of two and a multiple of sizeof(void*),
 //  and should ideally be less than memory page size. A caveat of rpmalloc
 //  internals is that this must also be strictly less than the span size
 //  (default 64KiB)
 RPMALLOC_EXPORT int rpposix_memalign(void **memptr, size_t alignment,
                                      size_t size);

 //! Query the usable size of the given memory block (from given pointer to the
 //! end of block)
 RPMALLOC_EXPORT size_t rpmalloc_usable_size(void *ptr);

 //! Dummy empty function for forcing linker symbol inclusion
 RPMALLOC_EXPORT void rpmalloc_linker_reference(void);

 #if RPMALLOC_FIRST_CLASS_HEAPS

 //! Heap type
 typedef struct heap_t rpmalloc_heap_t;

 //! Acquire a new heap. Will reuse existing released heaps or allocate memory
 //! for a new heap
 //  if none available. Heap API is implemented with the strict assumption that
 //  only one single thread will call heap functions for a given heap at any
 //  given time, no functions are thread safe.
 RPMALLOC_EXPORT rpmalloc_heap_t *rpmalloc_heap_acquire(void);

 //! Release a heap (does NOT free the memory allocated by the heap, use
 //! rpmalloc_heap_free_all before destroying the heap).
 //  Releasing a heap will enable it to be reused by other threads. Safe to pass
 //  a null pointer.
 RPMALLOC_EXPORT void rpmalloc_heap_release(rpmalloc_heap_t *heap);

 //! Allocate a memory block of at least the given size using the given heap.
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpmalloc_heap_alloc(rpmalloc_heap_t *heap, size_t size) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE(2);

 //! Allocate a memory block of at least the given size using the given heap. The
 //! returned
 //  block will have the requested alignment. Alignment must be a power of two
 //  and a multiple of sizeof(void*), and should ideally be less than memory page
 //  size. A caveat of rpmalloc internals is that this must also be strictly less
 //  than the span size (default 64KiB).
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpmalloc_heap_aligned_alloc(rpmalloc_heap_t *heap, size_t alignment,
                             size_t size) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE(3);

 //! Allocate a memory block of at least the given size using the given heap and
 //! zero initialize it.
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpmalloc_heap_calloc(rpmalloc_heap_t *heap, size_t num,
                      size_t size) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE2(2, 3);

 //! Allocate a memory block of at least the given size using the given heap and
 //! zero initialize it. The returned
 //  block will have the requested alignment. Alignment must either be zero, or a
 //  power of two and a multiple of sizeof(void*), and should ideally be less
 //  than memory page size. A caveat of rpmalloc internals is that this must also
 //  be strictly less than the span size (default 64KiB).
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpmalloc_heap_aligned_calloc(rpmalloc_heap_t *heap, size_t alignment,
                              size_t num, size_t size) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE2(2, 3);

 //! Reallocate the given block to at least the given size. The memory block MUST
 //! be allocated
 //  by the same heap given to this function.
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
 rpmalloc_heap_realloc(rpmalloc_heap_t *heap, void *ptr, size_t size,
                       unsigned int flags) RPMALLOC_ATTRIB_MALLOC
     RPMALLOC_ATTRIB_ALLOC_SIZE(3);

 //! Reallocate the given block to at least the given size. The memory block MUST
 //! be allocated
 //  by the same heap given to this function. The returned block will have the
 //  requested alignment. Alignment must be either zero, or a power of two and a
 //  multiple of sizeof(void*), and should ideally be less than memory page size.
 //  A caveat of rpmalloc internals is that this must also be strictly less than
 //  the span size (default 64KiB).
 RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *rpmalloc_heap_aligned_realloc(
     rpmalloc_heap_t *heap, void *ptr, size_t alignment, size_t size,
     unsigned int flags) RPMALLOC_ATTRIB_MALLOC RPMALLOC_ATTRIB_ALLOC_SIZE(4);

 //! Free the given memory block from the given heap. The memory block MUST be
 //! allocated
 //  by the same heap given to this function.
 RPMALLOC_EXPORT void rpmalloc_heap_free(rpmalloc_heap_t *heap, void *ptr);

 //! Free all memory allocated by the heap
 RPMALLOC_EXPORT void rpmalloc_heap_free_all(rpmalloc_heap_t *heap);

 //! Set the given heap as the current heap for the calling thread. A heap MUST
 //! only be current heap
 //  for a single thread, a heap can never be shared between multiple threads.
 //  The previous current heap for the calling thread is released to be reused by
 //  other threads.
 RPMALLOC_EXPORT void rpmalloc_heap_thread_set_current(rpmalloc_heap_t *heap);

 //! Returns which heap the given pointer is allocated on
 RPMALLOC_EXPORT rpmalloc_heap_t *rpmalloc_get_heap_for_ptr(void *ptr);

 #endif

 #ifdef __cplusplus
 }
 #endif
	//===---------------------- rpmalloc.h ------------------- C --=============//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// This library provides a cross-platform lock free thread caching malloc
	// implementation in C11.
	//
	//===----------------------------------------------------------------------===//

	#pragma once

	#include <stddef.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	#if defined(__clang__) \|\| defined(__GNUC__)
	#define RPMALLOC_EXPORT __attribute__((visibility("default")))
	#define RPMALLOC_ALLOCATOR
	#if (defined(__clang_major__) && (__clang_major__ < 4)) \|\| \
	(defined(__GNUC__) && defined(ENABLE_PRELOAD) && ENABLE_PRELOAD)
	#define RPMALLOC_ATTRIB_MALLOC
	#define RPMALLOC_ATTRIB_ALLOC_SIZE(size)
	#define RPMALLOC_ATTRIB_ALLOC_SIZE2(count, size)
	#else
	#define RPMALLOC_ATTRIB_MALLOC __attribute__((__malloc__))
	#define RPMALLOC_ATTRIB_ALLOC_SIZE(size) __attribute__((alloc_size(size)))
	#define RPMALLOC_ATTRIB_ALLOC_SIZE2(count, size) \
	__attribute__((alloc_size(count, size)))
	#endif
	#define RPMALLOC_CDECL
	#elif defined(_MSC_VER)
	#define RPMALLOC_EXPORT
	#define RPMALLOC_ALLOCATOR __declspec(allocator) __declspec(restrict)
	#define RPMALLOC_ATTRIB_MALLOC
	#define RPMALLOC_ATTRIB_ALLOC_SIZE(size)
	#define RPMALLOC_ATTRIB_ALLOC_SIZE2(count, size)
	#define RPMALLOC_CDECL __cdecl
	#else
	#define RPMALLOC_EXPORT
	#define RPMALLOC_ALLOCATOR
	#define RPMALLOC_ATTRIB_MALLOC
	#define RPMALLOC_ATTRIB_ALLOC_SIZE(size)
	#define RPMALLOC_ATTRIB_ALLOC_SIZE2(count, size)
	#define RPMALLOC_CDECL
	#endif

	//! Define RPMALLOC_CONFIGURABLE to enable configuring sizes. Will introduce
	// a very small overhead due to some size calculations not being compile time
	// constants
	#ifndef RPMALLOC_CONFIGURABLE
	#define RPMALLOC_CONFIGURABLE 0
	#endif

	//! Define RPMALLOC_FIRST_CLASS_HEAPS to enable heap based API (rpmalloc_heap_*
	//! functions).
	// Will introduce a very small overhead to track fully allocated spans in heaps
	#ifndef RPMALLOC_FIRST_CLASS_HEAPS
	#define RPMALLOC_FIRST_CLASS_HEAPS 0
	#endif

	//! Flag to rpaligned_realloc to not preserve content in reallocation
	#define RPMALLOC_NO_PRESERVE 1
	//! Flag to rpaligned_realloc to fail and return null pointer if grow cannot be
	//! done in-place,
	// in which case the original pointer is still valid (just like a call to
	// realloc which failes to allocate a new block).
	#define RPMALLOC_GROW_OR_FAIL 2

	typedef struct rpmalloc_global_statistics_t {
	//! Current amount of virtual memory mapped, all of which might not have been
	//! committed (only if ENABLE_STATISTICS=1)
	size_t mapped;
	//! Peak amount of virtual memory mapped, all of which might not have been
	//! committed (only if ENABLE_STATISTICS=1)
	size_t mapped_peak;
	//! Current amount of memory in global caches for small and medium sizes
	//! (<32KiB)
	size_t cached;
	//! Current amount of memory allocated in huge allocations, i.e larger than
	//! LARGE_SIZE_LIMIT which is 2MiB by default (only if ENABLE_STATISTICS=1)
	size_t huge_alloc;
	//! Peak amount of memory allocated in huge allocations, i.e larger than
	//! LARGE_SIZE_LIMIT which is 2MiB by default (only if ENABLE_STATISTICS=1)
	size_t huge_alloc_peak;
	//! Total amount of memory mapped since initialization (only if
	//! ENABLE_STATISTICS=1)
	size_t mapped_total;
	//! Total amount of memory unmapped since initialization (only if
	//! ENABLE_STATISTICS=1)
	size_t unmapped_total;
	} rpmalloc_global_statistics_t;

	typedef struct rpmalloc_thread_statistics_t {
	//! Current number of bytes available in thread size class caches for small
	//! and medium sizes (<32KiB)
	size_t sizecache;
	//! Current number of bytes available in thread span caches for small and
	//! medium sizes (<32KiB)
	size_t spancache;
	//! Total number of bytes transitioned from thread cache to global cache (only
	//! if ENABLE_STATISTICS=1)
	size_t thread_to_global;
	//! Total number of bytes transitioned from global cache to thread cache (only
	//! if ENABLE_STATISTICS=1)
	size_t global_to_thread;
	//! Per span count statistics (only if ENABLE_STATISTICS=1)
	struct {
	//! Currently used number of spans
	size_t current;
	//! High water mark of spans used
	size_t peak;
	//! Number of spans transitioned to global cache
	size_t to_global;
	//! Number of spans transitioned from global cache
	size_t from_global;
	//! Number of spans transitioned to thread cache
	size_t to_cache;
	//! Number of spans transitioned from thread cache
	size_t from_cache;
	//! Number of spans transitioned to reserved state
	size_t to_reserved;
	//! Number of spans transitioned from reserved state
	size_t from_reserved;
	//! Number of raw memory map calls (not hitting the reserve spans but
	//! resulting in actual OS mmap calls)
	size_t map_calls;
	} span_use[64];
	//! Per size class statistics (only if ENABLE_STATISTICS=1)
	struct {
	//! Current number of allocations
	size_t alloc_current;
	//! Peak number of allocations
	size_t alloc_peak;
	//! Total number of allocations
	size_t alloc_total;
	//! Total number of frees
	size_t free_total;
	//! Number of spans transitioned to cache
	size_t spans_to_cache;
	//! Number of spans transitioned from cache
	size_t spans_from_cache;
	//! Number of spans transitioned from reserved state
	size_t spans_from_reserved;
	//! Number of raw memory map calls (not hitting the reserve spans but
	//! resulting in actual OS mmap calls)
	size_t map_calls;
	} size_use[128];
	} rpmalloc_thread_statistics_t;

	typedef struct rpmalloc_config_t {
	//! Map memory pages for the given number of bytes. The returned address MUST
	//! be
	// aligned to the rpmalloc span size, which will always be a power of two.
	// Optionally the function can store an alignment offset in the offset
	// variable in case it performs alignment and the returned pointer is offset
	// from the actual start of the memory region due to this alignment. The
	// alignment offset will be passed to the memory unmap function. The
	// alignment offset MUST NOT be larger than 65535 (storable in an uint16_t),
	// if it is you must use natural alignment to shift it into 16 bits. If you
	// set a memory_map function, you must also set a memory_unmap function or
	// else the default implementation will be used for both. This function must
	// be thread safe, it can be called by multiple threads simultaneously.
	void (memory_map)(size_t size, size_t *offset);
	//! Unmap the memory pages starting at address and spanning the given number
	//! of bytes.
	// If release is set to non-zero, the unmap is for an entire span range as
	// returned by a previous call to memory_map and that the entire range should
	// be released. The release argument holds the size of the entire span range.
	// If release is set to 0, the unmap is a partial decommit of a subset of the
	// mapped memory range. If you set a memory_unmap function, you must also set
	// a memory_map function or else the default implementation will be used for
	// both. This function must be thread safe, it can be called by multiple
	// threads simultaneously.
	void (memory_unmap)(void address, size_t size, size_t offset,
	size_t release);
	//! Called when an assert fails, if asserts are enabled. Will use the standard
	//! assert()
	// if this is not set.
	void (error_callback)(const char message);
	//! Called when a call to map memory pages fails (out of memory). If this
	//! callback is
	// not set or returns zero the library will return a null pointer in the
	// allocation call. If this callback returns non-zero the map call will be
	// retried. The argument passed is the number of bytes that was requested in
	// the map call. Only used if the default system memory map function is used
	// (memory_map callback is not set).
	int (*map_fail_callback)(size_t size);
	//! Size of memory pages. The page size MUST be a power of two. All memory
	//! mapping
	// requests to memory_map will be made with size set to a multiple of the
	// page size. Used if RPMALLOC_CONFIGURABLE is defined to 1, otherwise system
	// page size is used.
	size_t page_size;
	//! Size of a span of memory blocks. MUST be a power of two, and in
	//! [4096,262144]
	// range (unless 0 - set to 0 to use the default span size). Used if
	// RPMALLOC_CONFIGURABLE is defined to 1.
	size_t span_size;
	//! Number of spans to map at each request to map new virtual memory blocks.
	//! This can
	// be used to minimize the system call overhead at the cost of virtual memory
	// address space. The extra mapped pages will not be written until actually
	// used, so physical committed memory should not be affected in the default
	// implementation. Will be aligned to a multiple of spans that match memory
	// page size in case of huge pages.
	size_t span_map_count;
	//! Enable use of large/huge pages. If this flag is set to non-zero and page
	//! size is
	// zero, the allocator will try to enable huge pages and auto detect the
	// configuration. If this is set to non-zero and page_size is also non-zero,
	// the allocator will assume huge pages have been configured and enabled
	// prior to initializing the allocator. For Windows, see
	// https://docs.microsoft.com/en-us/windows/desktop/memory/large-page-support
	// For Linux, see https://www.kernel.org/doc/Documentation/vm/hugetlbpage.txt
	int enable_huge_pages;
	//! Respectively allocated pages and huge allocated pages names for systems
	// supporting it to be able to distinguish among anonymous regions.
	const char *page_name;
	const char *huge_page_name;
	} rpmalloc_config_t;

	//! Initialize allocator with default configuration
	RPMALLOC_EXPORT int rpmalloc_initialize(void);

	//! Initialize allocator with given configuration
	RPMALLOC_EXPORT int rpmalloc_initialize_config(const rpmalloc_config_t *config);

	//! Get allocator configuration
	RPMALLOC_EXPORT const rpmalloc_config_t *rpmalloc_config(void);

	//! Finalize allocator
	RPMALLOC_EXPORT void rpmalloc_finalize(void);

	//! Initialize allocator for calling thread
	RPMALLOC_EXPORT void rpmalloc_thread_initialize(void);

	//! Finalize allocator for calling thread
	RPMALLOC_EXPORT void rpmalloc_thread_finalize(int release_caches);

	//! Perform deferred deallocations pending for the calling thread heap
	RPMALLOC_EXPORT void rpmalloc_thread_collect(void);

	//! Query if allocator is initialized for calling thread
	RPMALLOC_EXPORT int rpmalloc_is_thread_initialized(void);

	//! Get per-thread statistics
	RPMALLOC_EXPORT void
	rpmalloc_thread_statistics(rpmalloc_thread_statistics_t *stats);

	//! Get global statistics
	RPMALLOC_EXPORT void
	rpmalloc_global_statistics(rpmalloc_global_statistics_t *stats);

	//! Dump all statistics in human readable format to file (should be a FILE*)
	RPMALLOC_EXPORT void rpmalloc_dump_statistics(void *file);

	//! Allocate a memory block of at least the given size
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpmalloc(size_t size) RPMALLOC_ATTRIB_MALLOC RPMALLOC_ATTRIB_ALLOC_SIZE(1);

	//! Free the given memory block
	RPMALLOC_EXPORT void rpfree(void *ptr);

	//! Allocate a memory block of at least the given size and zero initialize it
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpcalloc(size_t num, size_t size) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE2(1, 2);

	//! Reallocate the given block to at least the given size
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rprealloc(void *ptr, size_t size) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE(2);

	//! Reallocate the given block to at least the given size and alignment,
	// with optional control flags (see RPMALLOC_NO_PRESERVE).
	// Alignment must be a power of two and a multiple of sizeof(void*),
	// and should ideally be less than memory page size. A caveat of rpmalloc
	// internals is that this must also be strictly less than the span size
	// (default 64KiB)
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpaligned_realloc(void *ptr, size_t alignment, size_t size, size_t oldsize,
	unsigned int flags) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE(3);

	//! Allocate a memory block of at least the given size and alignment.
	// Alignment must be a power of two and a multiple of sizeof(void*),
	// and should ideally be less than memory page size. A caveat of rpmalloc
	// internals is that this must also be strictly less than the span size
	// (default 64KiB)
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpaligned_alloc(size_t alignment, size_t size) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE(2);

	//! Allocate a memory block of at least the given size and alignment, and zero
	//! initialize it.
	// Alignment must be a power of two and a multiple of sizeof(void*),
	// and should ideally be less than memory page size. A caveat of rpmalloc
	// internals is that this must also be strictly less than the span size
	// (default 64KiB)
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpaligned_calloc(size_t alignment, size_t num,
	size_t size) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE2(2, 3);

	//! Allocate a memory block of at least the given size and alignment.
	// Alignment must be a power of two and a multiple of sizeof(void*),
	// and should ideally be less than memory page size. A caveat of rpmalloc
	// internals is that this must also be strictly less than the span size
	// (default 64KiB)
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpmemalign(size_t alignment, size_t size) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE(2);

	//! Allocate a memory block of at least the given size and alignment.
	// Alignment must be a power of two and a multiple of sizeof(void*),
	// and should ideally be less than memory page size. A caveat of rpmalloc
	// internals is that this must also be strictly less than the span size
	// (default 64KiB)
	RPMALLOC_EXPORT int rpposix_memalign(void **memptr, size_t alignment,
	size_t size);

	//! Query the usable size of the given memory block (from given pointer to the
	//! end of block)
	RPMALLOC_EXPORT size_t rpmalloc_usable_size(void *ptr);

	//! Dummy empty function for forcing linker symbol inclusion
	RPMALLOC_EXPORT void rpmalloc_linker_reference(void);

	#if RPMALLOC_FIRST_CLASS_HEAPS

	//! Heap type
	typedef struct heap_t rpmalloc_heap_t;

	//! Acquire a new heap. Will reuse existing released heaps or allocate memory
	//! for a new heap
	// if none available. Heap API is implemented with the strict assumption that
	// only one single thread will call heap functions for a given heap at any
	// given time, no functions are thread safe.
	RPMALLOC_EXPORT rpmalloc_heap_t *rpmalloc_heap_acquire(void);

	//! Release a heap (does NOT free the memory allocated by the heap, use
	//! rpmalloc_heap_free_all before destroying the heap).
	// Releasing a heap will enable it to be reused by other threads. Safe to pass
	// a null pointer.
	RPMALLOC_EXPORT void rpmalloc_heap_release(rpmalloc_heap_t *heap);

	//! Allocate a memory block of at least the given size using the given heap.
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpmalloc_heap_alloc(rpmalloc_heap_t *heap, size_t size) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE(2);

	//! Allocate a memory block of at least the given size using the given heap. The
	//! returned
	// block will have the requested alignment. Alignment must be a power of two
	// and a multiple of sizeof(void*), and should ideally be less than memory page
	// size. A caveat of rpmalloc internals is that this must also be strictly less
	// than the span size (default 64KiB).
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpmalloc_heap_aligned_alloc(rpmalloc_heap_t *heap, size_t alignment,
	size_t size) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE(3);

	//! Allocate a memory block of at least the given size using the given heap and
	//! zero initialize it.
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpmalloc_heap_calloc(rpmalloc_heap_t *heap, size_t num,
	size_t size) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE2(2, 3);

	//! Allocate a memory block of at least the given size using the given heap and
	//! zero initialize it. The returned
	// block will have the requested alignment. Alignment must either be zero, or a
	// power of two and a multiple of sizeof(void*), and should ideally be less
	// than memory page size. A caveat of rpmalloc internals is that this must also
	// be strictly less than the span size (default 64KiB).
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpmalloc_heap_aligned_calloc(rpmalloc_heap_t *heap, size_t alignment,
	size_t num, size_t size) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE2(2, 3);

	//! Reallocate the given block to at least the given size. The memory block MUST
	//! be allocated
	// by the same heap given to this function.
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *
	rpmalloc_heap_realloc(rpmalloc_heap_t heap, void ptr, size_t size,
	unsigned int flags) RPMALLOC_ATTRIB_MALLOC
	RPMALLOC_ATTRIB_ALLOC_SIZE(3);

	//! Reallocate the given block to at least the given size. The memory block MUST
	//! be allocated
	// by the same heap given to this function. The returned block will have the
	// requested alignment. Alignment must be either zero, or a power of two and a
	// multiple of sizeof(void*), and should ideally be less than memory page size.
	// A caveat of rpmalloc internals is that this must also be strictly less than
	// the span size (default 64KiB).
	RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void *rpmalloc_heap_aligned_realloc(
	rpmalloc_heap_t heap, void ptr, size_t alignment, size_t size,
	unsigned int flags) RPMALLOC_ATTRIB_MALLOC RPMALLOC_ATTRIB_ALLOC_SIZE(4);

	//! Free the given memory block from the given heap. The memory block MUST be
	//! allocated
	// by the same heap given to this function.
	RPMALLOC_EXPORT void rpmalloc_heap_free(rpmalloc_heap_t heap, void ptr);

	//! Free all memory allocated by the heap
	RPMALLOC_EXPORT void rpmalloc_heap_free_all(rpmalloc_heap_t *heap);

	//! Set the given heap as the current heap for the calling thread. A heap MUST
	//! only be current heap
	// for a single thread, a heap can never be shared between multiple threads.
	// The previous current heap for the calling thread is released to be reused by
	// other threads.
	RPMALLOC_EXPORT void rpmalloc_heap_thread_set_current(rpmalloc_heap_t *heap);

	//! Returns which heap the given pointer is allocated on
	RPMALLOC_EXPORT rpmalloc_heap_t rpmalloc_get_heap_for_ptr(void ptr);

	#endif

	#ifdef __cplusplus
	}
	#endif