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TCMalloc Basic Reference

TCMalloc provides implementations for C and C++ library memory management routines (malloc(), etc.) provided within the C and C++ standard libraries.

Currently, TCMalloc requires code that conforms to the C11 C standard library and the C++11, C++14, or C++17 C++ standard library.

NOTE: although the C API in this document is specific to the C language, the entire TCMalloc API itself is designed to be callable directly within C++ code (and we expect most usage to be from C++). The documentation in this section assumes C constructs (e.g. size_t) though invocations using equivalent C++ constructs of aliased types (e.g. std::size_t) are instrinsically supported.

C++ API

We implement the variants of operator new and operator delete from the C++11, C++14, C++17 standards exposed within the <new> header file. This includes:

  • The basic ::operator new(), ::operator delete(), and array variant functions.
  • C++14's sized ::operator delete()
  • C++17's overaligned ::operator new() and ::operator delete() functions. As required by the C++ standard, memory allocated using an aligned operator new function must be deallocated with an aligned operator delete.

::operator new / ::operator new[]

void* operator new(std::size_t count);
void* operator new(std::size_t count, const std::nothrow_t& tag) noexcept;
void* operator new(std::size_t count, std::align_val_t al);  // C++17
void* operator new(std::size_t count,
                   std::align_val_t al, const std::nothrow_t&) noexcept;  // C++17

void* operator new[](std::size_t count);
void* operator new[](std::size_t count, const std::nothrow_t& tag) noexcept;
void* operator new[](std::size_t count, std::align_val_t al);  // C++17
void* operator new[](std::size_t count,
                     std::align_val_t al, const std::nothrow_t&) noexcept;  // C++17

operator new/operator new[] allocates count bytes. They may be invoked directly but are more commonly invoked as part of a new-expression.

When __STDCPP_DEFAULT_NEW_ALIGNMENT__ is not specified (or is larger than 8 bytes), we use standard 16 byte alignments for ::operator new without a std::align_val_t argument. However, for allocations under 16 bytes, we may return an object with a lower alignment, as no object with a larger alignment requirement can be allocated in the space. When compiled with __STDCPP_DEFAULT_NEW_ALIGNMENT__ <= 8, we use a set of sizes aligned to 8 bytes for raw storage allocated with ::operator new.

NOTE: On many platforms, the value of __STDCPP_DEFAULT_NEW_ALIGNMENT__ can be configured by the -fnew-alignment=... flag.

The std::align_val_t variants provide storage suitably aligned to the requested alignment.

If the allocation is unsuccessful, a failure terminates the program.

NOTE: unlike in the C++ standard, we do not throw an exception in case of allocation failure, or invoke std::get_new_handler() repeatedly in an attempt to successfully allocate, but instead crash directly. Such behavior can be used as a performance optimization for move constructors not currently marked noexcept; such move operations can be allowed to fail directly due to allocation failures. Within Abseil code, these direct allocation failures are enabled with the Abseil build-time configuration macro ABSL_ALLOCATOR_NOTHROW.

If the std::no_throw_t variant is utilized, upon failure, ::operator new will return nullptr instead.

The tcmalloc::hot_cold_t variant accepts a hot_cold hint for how frequently an allocation would be accessed. It takes an 8-bit unsigned integer value, with 0 indicating that the allocation is rarely used and 255 indicating that the allocation is accessed very frequently. TCMalloc may use these hints for better data placement and locality.

::operator delete / ::operator delete[]

void operator delete(void* ptr) noexcept;
void operator delete(void* ptr, std::size_t sz) noexcept;
void operator delete(void* ptr, std::align_val_t al) noexcept;
void operator delete(void* ptr, std::size_t sz,
                     std::align_val_t all) noexcept;

void operator delete[](void* ptr) noexcept;
void operator delete[](void* ptr, std::size_t sz) noexcept;       // C++14
void operator delete[](void* ptr, std::align_val_t al) noexcept;  // C++17
void operator delete[](void* ptr, std::size_t sz,
                       std::align_val_t al) noexcept;             // C++17

::operator delete/::operator delete[] deallocate memory previously allocated by a corresponding ::operator new/::operator new[] call respectively. It is commonly invoked as part of a delete-expression.

Sized delete is used as a critical performance optimization, eliminating the need to perform a costly pointer-to-size lookup.

Extensions

We also expose a prototype of P0901 in https://github.com/google/tcmalloc/blob/master/tcmalloc/malloc_extension.h with tcmalloc_size_returning_operator_new(). This returns both memory and the size of the allocation in bytes. It can be freed with ::operator delete.

C API

The C standard library specifies the API for dynamic memory management within the <stdlib.h> header file. Implementations require C11 or greater.

TCMalloc provides implementation for the following C API functions:

  • malloc()
  • calloc()
  • realloc()
  • free()
  • aligned_alloc()

For malloc, calloc, and realloc, we obey the behavior of C90 DR075 and DR445 which states:

The alignment requirement still applies even if the size is too small for any object requiring the given alignment.

In other words, malloc(1) returns alignof(std::max_align_t)-aligned pointer. Based on the progress of N2293, we may relax this alignment in the future.

Additionally, TCMalloc provides an implementation for the following POSIX standard library function, available within glibc:

  • posix_memalign()

TCMalloc also provides implementations for the following obsolete functions typically provided within libc implementations:

  • cfree()
  • memalign()
  • valloc()
  • pvalloc()

Documentation is not provided for these obsolete functions. The implementations are provided only for compatibility purposes.

malloc()

void* malloc(size_t size);

malloc allocates size bytes of memory and returns a void * pointer to the start of that memory.

malloc(0) returns a non-NULL zero-sized pointer. (Attempting to access memory at this location is undefined.) If malloc() fails for some reason, it returns NULL.

calloc()

void* calloc(size_t num, size_t size);

calloc() allocates memory for an array of objects, zero-initializes all bytes in allocated storage, and if allocation succeeds, returns a pointer to the first byte in the allocated memory block.

calloc(num, 0) or calloc(0, size) returns a non-NULL zero-sized pointer. (Attempting to access memory at this location is undefined.) If calloc() fails for some reason, it returns NULL.

realloc()

void* realloc(void *ptr, size_t new_size);

realloc() re-allocates memory for an existing region of memory by either expanding or contracting the memory based on the passed new_size in bytes, returning a void* pointer to the start of that memory (which may not change); it does not perform any initialization of new areas of memory.

realloc(OBJ*, 0) returns a NULL pointer. If realloc() fails for some reason, it also returns NULL.

aligned_alloc()

void* aligned_alloc(size_t alignment, size_t size);

aligned_alloc() allocates size bytes of memory with alignment of size alignment and returns a void * pointer to the start of that memory; it does not perform any initialization.

The size parameter must be an integral multiple of alignment and alignment must be a power of two. If either of these cases is not satisfied, aligned_alloc() will fail and return a NULL pointer.

aligned_alloc with size=0 returns a non-NULL zero-sized pointer. (Attempting to access memory at this location is undefined.)

posix_memalign()

int posix_memalign(void **memptr, size_t alignment, size_t size);

posix_memalign(), like aligned_alloc() allocates size bytes of memory with alignment of size alignment to the start of memory pointed to by **memptr; it does not perform any initialization. This pointer can be cast to the desired type of data pointer in order to be dereferenceable. If the alignment allocation succeeds, posix_memalign() returns 0; otherwise it returns an error value.

posix_memalign is similar to aligned_alloc() but alignment be a power of two multiple of sizeof(void *). If the constraints are not satisfied, posix_memalign() will fail.

posix_memalign with size=0 returns a non-NULL zero-sized pointer. (Attempting to access memory at this location is undefined.)

free()

void free(void* ptr);

free() deallocates memory previously allocated by malloc(), calloc(), aligned_alloc(), posix_memalign(), or realloc(). If free() is passed a null pointer, the function does nothing.

Extensions

These are contained in https://github.com/google/tcmalloc/blob/master/tcmalloc/malloc_extension.h.

  • nallocx(size_t size, int flags) - Returns the number of bytes that would be allocated by malloc(size), subject to the alignment specified in flags.
  • sdallocx(void* ptr, size_t size, int flags) - Deallocates memory allocated by malloc or memalign. It takes a size parameter to pass the original allocation size, improving deallocation performance.