30a629ca21
* Tracy profiler integration. * Cleanup URHO3D_TRACY_PROFILING macro. * Fix comment of Tracy build option. * Decouple URHO3D_TRACY_PROFILING exclusively from URHO3D_PROFILING. * Comment explains URHO3D_TRACY_PROFILING * Update * Update CMakeLists.txt * Update CMakeLists.txt * Update CMakeLists.txt * Update CMakeLists.txt * Update * Update TracyCallstack.cpp * Update * Update CMakeLists.txt * Update TracyCallstack.cpp * Update TracyCallstack.cpp Co-authored-by: 1vanK <1vanK@users.noreply.github.com>
262 lines
11 KiB
C++
262 lines
11 KiB
C++
/* rpmalloc.h - Memory allocator - Public Domain - 2016 Mattias Jansson
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*
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* This library provides a cross-platform lock free thread caching malloc implementation in C11.
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* The latest source code is always available at
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*
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* https://github.com/mjansson/rpmalloc
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*
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* This library is put in the public domain; you can redistribute it and/or modify it without any restrictions.
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*
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*/
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#pragma once
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#include <stddef.h>
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#include "../common/TracyApi.h"
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namespace tracy
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{
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#if defined(__clang__) || defined(__GNUC__)
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# define RPMALLOC_EXPORT __attribute__((visibility("default")))
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# define RPMALLOC_ALLOCATOR
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# define RPMALLOC_ATTRIB_MALLOC __attribute__((__malloc__))
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# if defined(__clang_major__) && (__clang_major__ < 4)
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# define RPMALLOC_ATTRIB_ALLOC_SIZE(size)
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# define RPMALLOC_ATTRIB_ALLOC_SIZE2(count, size)
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# else
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# define RPMALLOC_ATTRIB_ALLOC_SIZE(size) __attribute__((alloc_size(size)))
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# define RPMALLOC_ATTRIB_ALLOC_SIZE2(count, size) __attribute__((alloc_size(count, size)))
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# endif
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# define RPMALLOC_CDECL
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#elif defined(_MSC_VER)
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# define RPMALLOC_EXPORT
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# define RPMALLOC_ALLOCATOR __declspec(allocator) __declspec(restrict)
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# define RPMALLOC_ATTRIB_MALLOC
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# define RPMALLOC_ATTRIB_ALLOC_SIZE(size)
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# define RPMALLOC_ATTRIB_ALLOC_SIZE2(count,size)
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# define RPMALLOC_CDECL __cdecl
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#else
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# define RPMALLOC_EXPORT
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# define RPMALLOC_ALLOCATOR
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# define RPMALLOC_ATTRIB_MALLOC
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# define RPMALLOC_ATTRIB_ALLOC_SIZE(size)
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# define RPMALLOC_ATTRIB_ALLOC_SIZE2(count,size)
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# define RPMALLOC_CDECL
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#endif
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//! Define RPMALLOC_CONFIGURABLE to enable configuring sizes
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#ifndef RPMALLOC_CONFIGURABLE
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#define RPMALLOC_CONFIGURABLE 0
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#endif
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//! Flag to rpaligned_realloc to not preserve content in reallocation
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#define RPMALLOC_NO_PRESERVE 1
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typedef struct rpmalloc_global_statistics_t {
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//! Current amount of virtual memory mapped, all of which might not have been committed (only if ENABLE_STATISTICS=1)
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size_t mapped;
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//! Peak amount of virtual memory mapped, all of which might not have been committed (only if ENABLE_STATISTICS=1)
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size_t mapped_peak;
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//! Current amount of memory in global caches for small and medium sizes (<32KiB)
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size_t cached;
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//! 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)
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size_t huge_alloc;
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//! 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)
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size_t huge_alloc_peak;
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//! Total amount of memory mapped since initialization (only if ENABLE_STATISTICS=1)
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size_t mapped_total;
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//! Total amount of memory unmapped since initialization (only if ENABLE_STATISTICS=1)
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size_t unmapped_total;
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} rpmalloc_global_statistics_t;
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typedef struct rpmalloc_thread_statistics_t {
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//! Current number of bytes available in thread size class caches for small and medium sizes (<32KiB)
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size_t sizecache;
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//! Current number of bytes available in thread span caches for small and medium sizes (<32KiB)
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size_t spancache;
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//! Total number of bytes transitioned from thread cache to global cache (only if ENABLE_STATISTICS=1)
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size_t thread_to_global;
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//! Total number of bytes transitioned from global cache to thread cache (only if ENABLE_STATISTICS=1)
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size_t global_to_thread;
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//! Per span count statistics (only if ENABLE_STATISTICS=1)
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struct {
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//! Currently used number of spans
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size_t current;
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//! High water mark of spans used
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size_t peak;
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//! Number of spans transitioned to global cache
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size_t to_global;
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//! Number of spans transitioned from global cache
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size_t from_global;
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//! Number of spans transitioned to thread cache
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size_t to_cache;
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//! Number of spans transitioned from thread cache
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size_t from_cache;
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//! Number of spans transitioned to reserved state
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size_t to_reserved;
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//! Number of spans transitioned from reserved state
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size_t from_reserved;
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//! Number of raw memory map calls (not hitting the reserve spans but resulting in actual OS mmap calls)
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size_t map_calls;
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} span_use[32];
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//! Per size class statistics (only if ENABLE_STATISTICS=1)
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struct {
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//! Current number of allocations
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size_t alloc_current;
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//! Peak number of allocations
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size_t alloc_peak;
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//! Total number of allocations
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size_t alloc_total;
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//! Total number of frees
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size_t free_total;
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//! Number of spans transitioned to cache
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size_t spans_to_cache;
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//! Number of spans transitioned from cache
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size_t spans_from_cache;
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//! Number of spans transitioned from reserved state
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size_t spans_from_reserved;
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//! Number of raw memory map calls (not hitting the reserve spans but resulting in actual OS mmap calls)
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size_t map_calls;
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} size_use[128];
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} rpmalloc_thread_statistics_t;
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typedef struct rpmalloc_config_t {
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//! Map memory pages for the given number of bytes. The returned address MUST be
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// aligned to the rpmalloc span size, which will always be a power of two.
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// Optionally the function can store an alignment offset in the offset variable
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// in case it performs alignment and the returned pointer is offset from the
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// actual start of the memory region due to this alignment. The alignment offset
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// will be passed to the memory unmap function. The alignment offset MUST NOT be
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// larger than 65535 (storable in an uint16_t), if it is you must use natural
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// alignment to shift it into 16 bits. If you set a memory_map function, you
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// must also set a memory_unmap function or else the default implementation will
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// be used for both.
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void* (*memory_map)(size_t size, size_t* offset);
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//! Unmap the memory pages starting at address and spanning the given number of bytes.
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// If release is set to non-zero, the unmap is for an entire span range as returned by
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// a previous call to memory_map and that the entire range should be released. The
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// release argument holds the size of the entire span range. If release is set to 0,
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// the unmap is a partial decommit of a subset of the mapped memory range.
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// If you set a memory_unmap function, you must also set a memory_map function or
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// else the default implementation will be used for both.
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void (*memory_unmap)(void* address, size_t size, size_t offset, size_t release);
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//! Size of memory pages. The page size MUST be a power of two. All memory mapping
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// requests to memory_map will be made with size set to a multiple of the page size.
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// Used if RPMALLOC_CONFIGURABLE is defined to 1, otherwise system page size is used.
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size_t page_size;
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//! Size of a span of memory blocks. MUST be a power of two, and in [4096,262144]
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// range (unless 0 - set to 0 to use the default span size). Used if RPMALLOC_CONFIGURABLE
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// is defined to 1.
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size_t span_size;
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//! Number of spans to map at each request to map new virtual memory blocks. This can
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// be used to minimize the system call overhead at the cost of virtual memory address
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// space. The extra mapped pages will not be written until actually used, so physical
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// committed memory should not be affected in the default implementation. Will be
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// aligned to a multiple of spans that match memory page size in case of huge pages.
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size_t span_map_count;
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//! Enable use of large/huge pages. If this flag is set to non-zero and page size is
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// zero, the allocator will try to enable huge pages and auto detect the configuration.
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// If this is set to non-zero and page_size is also non-zero, the allocator will
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// assume huge pages have been configured and enabled prior to initializing the
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// allocator.
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// For Windows, see https://docs.microsoft.com/en-us/windows/desktop/memory/large-page-support
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// For Linux, see https://www.kernel.org/doc/Documentation/vm/hugetlbpage.txt
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int enable_huge_pages;
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} rpmalloc_config_t;
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//! Initialize allocator with default configuration
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TRACY_API int
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rpmalloc_initialize(void);
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//! Initialize allocator with given configuration
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RPMALLOC_EXPORT int
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rpmalloc_initialize_config(const rpmalloc_config_t* config);
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//! Get allocator configuration
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RPMALLOC_EXPORT const rpmalloc_config_t*
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rpmalloc_config(void);
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//! Finalize allocator
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TRACY_API void
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rpmalloc_finalize(void);
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//! Initialize allocator for calling thread
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TRACY_API void
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rpmalloc_thread_initialize(void);
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//! Finalize allocator for calling thread
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TRACY_API void
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rpmalloc_thread_finalize(void);
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//! Perform deferred deallocations pending for the calling thread heap
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RPMALLOC_EXPORT void
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rpmalloc_thread_collect(void);
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//! Query if allocator is initialized for calling thread
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RPMALLOC_EXPORT int
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rpmalloc_is_thread_initialized(void);
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//! Get per-thread statistics
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RPMALLOC_EXPORT void
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rpmalloc_thread_statistics(rpmalloc_thread_statistics_t* stats);
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//! Get global statistics
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RPMALLOC_EXPORT void
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rpmalloc_global_statistics(rpmalloc_global_statistics_t* stats);
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//! Dump all statistics in human readable format to file (should be a FILE*)
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RPMALLOC_EXPORT void
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rpmalloc_dump_statistics(void* file);
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//! Allocate a memory block of at least the given size
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TRACY_API RPMALLOC_ALLOCATOR void*
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rpmalloc(size_t size) RPMALLOC_ATTRIB_MALLOC RPMALLOC_ATTRIB_ALLOC_SIZE(1);
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//! Free the given memory block
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TRACY_API void
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rpfree(void* ptr);
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//! Allocate a memory block of at least the given size and zero initialize it
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RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void*
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rpcalloc(size_t num, size_t size) RPMALLOC_ATTRIB_MALLOC RPMALLOC_ATTRIB_ALLOC_SIZE2(1, 2);
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//! Reallocate the given block to at least the given size
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TRACY_API RPMALLOC_ALLOCATOR void*
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rprealloc(void* ptr, size_t size) RPMALLOC_ATTRIB_MALLOC RPMALLOC_ATTRIB_ALLOC_SIZE(2);
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//! Reallocate the given block to at least the given size and alignment,
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// with optional control flags (see RPMALLOC_NO_PRESERVE).
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// Alignment must be a power of two and a multiple of sizeof(void*),
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// and should ideally be less than memory page size. A caveat of rpmalloc
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// internals is that this must also be strictly less than the span size (default 64KiB)
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RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void*
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rpaligned_realloc(void* ptr, size_t alignment, size_t size, size_t oldsize, unsigned int flags) RPMALLOC_ATTRIB_MALLOC RPMALLOC_ATTRIB_ALLOC_SIZE(3);
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//! Allocate a memory block of at least the given size and alignment.
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// Alignment must be a power of two and a multiple of sizeof(void*),
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// and should ideally be less than memory page size. A caveat of rpmalloc
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// internals is that this must also be strictly less than the span size (default 64KiB)
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RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void*
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rpaligned_alloc(size_t alignment, size_t size) RPMALLOC_ATTRIB_MALLOC RPMALLOC_ATTRIB_ALLOC_SIZE(2);
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//! Allocate a memory block of at least the given size and alignment.
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// Alignment must be a power of two and a multiple of sizeof(void*),
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// and should ideally be less than memory page size. A caveat of rpmalloc
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// internals is that this must also be strictly less than the span size (default 64KiB)
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RPMALLOC_EXPORT RPMALLOC_ALLOCATOR void*
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rpmemalign(size_t alignment, size_t size) RPMALLOC_ATTRIB_MALLOC RPMALLOC_ATTRIB_ALLOC_SIZE(2);
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//! Allocate a memory block of at least the given size and alignment.
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// Alignment must be a power of two and a multiple of sizeof(void*),
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// and should ideally be less than memory page size. A caveat of rpmalloc
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// internals is that this must also be strictly less than the span size (default 64KiB)
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RPMALLOC_EXPORT int
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rpposix_memalign(void **memptr, size_t alignment, size_t size);
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//! Query the usable size of the given memory block (from given pointer to the end of block)
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RPMALLOC_EXPORT size_t
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rpmalloc_usable_size(void* ptr);
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}
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