ref: b5a6dc7849cbd9f1fd23183ba46f0d5deb24e81d
dir: /sys/src/cmd/python/Python/pyarena.c/
#include "Python.h" #include "pyarena.h" /* A simple arena block structure. Measurements with standard library modules suggest the average allocation is about 20 bytes and that most compiles use a single block. TODO(jhylton): Think about a realloc API, maybe just for the last allocation? */ #define DEFAULT_BLOCK_SIZE 8192 #define ALIGNMENT 8 #define ALIGNMENT_MASK (ALIGNMENT - 1) #define ROUNDUP(x) (((x) + ALIGNMENT_MASK) & ~ALIGNMENT_MASK) typedef struct _block { /* Total number of bytes owned by this block available to pass out. * Read-only after initialization. The first such byte starts at * ab_mem. */ size_t ab_size; /* Total number of bytes already passed out. The next byte available * to pass out starts at ab_mem + ab_offset. */ size_t ab_offset; /* An arena maintains a singly-linked, NULL-terminated list of * all blocks owned by the arena. These are linked via the * ab_next member. */ struct _block *ab_next; /* Pointer to the first allocatable byte owned by this block. Read- * only after initialization. */ void *ab_mem; } block; /* The arena manages two kinds of memory, blocks of raw memory and a list of PyObject* pointers. PyObjects are decrefed when the arena is freed. */ struct _arena { /* Pointer to the first block allocated for the arena, never NULL. It is used only to find the first block when the arena is being freed. */ block *a_head; /* Pointer to the block currently used for allocation. It's ab_next field should be NULL. If it is not-null after a call to block_alloc(), it means a new block has been allocated and a_cur should be reset to point it. */ block *a_cur; /* A Python list object containing references to all the PyObject pointers associated with this area. They will be DECREFed when the arena is freed. */ PyObject *a_objects; #if defined(Py_DEBUG) /* Debug output */ size_t total_allocs; size_t total_size; size_t total_blocks; size_t total_block_size; size_t total_big_blocks; #endif }; static block * block_new(size_t size) { /* Allocate header and block as one unit. ab_mem points just past header. */ block *b = (block *)malloc(sizeof(block) + size); if (!b) return NULL; b->ab_size = size; b->ab_mem = (void *)(b + 1); b->ab_next = NULL; b->ab_offset = ROUNDUP((Py_uintptr_t)(b->ab_mem)) - (Py_uintptr_t)(b->ab_mem); return b; } static void block_free(block *b) { while (b) { block *next = b->ab_next; free(b); b = next; } } static void * block_alloc(block *b, size_t size) { void *p; assert(b); size = ROUNDUP(size); if (b->ab_offset + size > b->ab_size) { /* If we need to allocate more memory than will fit in the default block, allocate a one-off block that is exactly the right size. */ /* TODO(jhylton): Think about space waste at end of block */ block *newbl = block_new( size < DEFAULT_BLOCK_SIZE ? DEFAULT_BLOCK_SIZE : size); if (!newbl) return NULL; assert(!b->ab_next); b->ab_next = newbl; b = newbl; } assert(b->ab_offset + size <= b->ab_size); p = (void *)(((char *)b->ab_mem) + b->ab_offset); b->ab_offset += size; return p; } PyArena * PyArena_New() { PyArena* arena = (PyArena *)malloc(sizeof(PyArena)); if (!arena) return (PyArena*)PyErr_NoMemory(); arena->a_head = block_new(DEFAULT_BLOCK_SIZE); arena->a_cur = arena->a_head; if (!arena->a_head) { free((void *)arena); return (PyArena*)PyErr_NoMemory(); } arena->a_objects = PyList_New(0); if (!arena->a_objects) { block_free(arena->a_head); free((void *)arena); return (PyArena*)PyErr_NoMemory(); } #if defined(Py_DEBUG) arena->total_allocs = 0; arena->total_size = 0; arena->total_blocks = 1; arena->total_block_size = DEFAULT_BLOCK_SIZE; arena->total_big_blocks = 0; #endif return arena; } void PyArena_Free(PyArena *arena) { int r; assert(arena); #if defined(Py_DEBUG) /* fprintf(stderr, "alloc=%d size=%d blocks=%d block_size=%d big=%d objects=%d\n", arena->total_allocs, arena->total_size, arena->total_blocks, arena->total_block_size, arena->total_big_blocks, PyList_Size(arena->a_objects)); */ #endif block_free(arena->a_head); /* This property normally holds, except when the code being compiled is sys.getobjects(0), in which case there will be two references. assert(arena->a_objects->ob_refcnt == 1); */ /* Clear all the elements from the list. This is necessary to guarantee that they will be DECREFed. */ r = PyList_SetSlice(arena->a_objects, 0, PyList_GET_SIZE(arena->a_objects), NULL); assert(r == 0); assert(PyList_GET_SIZE(arena->a_objects) == 0); Py_DECREF(arena->a_objects); free(arena); } void * PyArena_Malloc(PyArena *arena, size_t size) { void *p = block_alloc(arena->a_cur, size); if (!p) return PyErr_NoMemory(); #if defined(Py_DEBUG) arena->total_allocs++; arena->total_size += size; #endif /* Reset cur if we allocated a new block. */ if (arena->a_cur->ab_next) { arena->a_cur = arena->a_cur->ab_next; #if defined(Py_DEBUG) arena->total_blocks++; arena->total_block_size += arena->a_cur->ab_size; if (arena->a_cur->ab_size > DEFAULT_BLOCK_SIZE) ++arena->total_big_blocks; #endif } return p; } int PyArena_AddPyObject(PyArena *arena, PyObject *obj) { int r = PyList_Append(arena->a_objects, obj); if (r >= 0) { Py_DECREF(obj); } return r; }