File Coverage

/usr/local/lib/perl5/site_perl/5.26.1/x86_64-linux/XS/libpanda.x/i/panda/memory.h

Criterion	Covered	Total	%
statement	2	2	100.0
branch			n/a
condition			n/a
subroutine			n/a
pod			n/a
total	2	2	100.0

line	stmt	code
1		#pragma once
2		#include
3		#include
4		#include
5		#include
6
7		namespace panda {
8
9		namespace detail {
10		void* __get_global_ptr (const std::type_info& ti, const char* name, void* val);
11		void* __get_global_tls_ptr (const std::type_info& ti, const char* name, void* val);
12		}
13
14		template
15	8	inline T* get_global_ptr (T* val, const char* name = NULL) {
16	8	return reinterpret_cast(detail::__get_global_ptr(typeid(CLASS), name, reinterpret_cast(val)));
17		}
18
19		template
20		inline T* get_global_tls_ptr (T* val, const char* name = NULL) {
21		return reinterpret_cast(detail::__get_global_tls_ptr(typeid(CLASS), name, reinterpret_cast(val)));
22		}
23
24		#define PANDA_GLOBAL_MEMBER_PTR(CLASS, TYPE, accessor, defval) \
25		static TYPE accessor () { \
26		static TYPE ptr; \
27		if (!ptr) ptr = panda::get_global_ptr(defval, #accessor); \
28		return ptr; \
29		}
30
31		#define PANDA_GLOBAL_MEMBER(CLASS, TYPE, accessor, defval) \
32		static TYPE& accessor () { \
33		static TYPE* ptr; \
34		if (!ptr) { \
35		static TYPE val = defval; \
36		ptr = panda::get_global_ptr(&val, #accessor); \
37		} \
38		return *ptr; \
39		}
40
41		#define PANDA_GLOBAL_MEMBER_AS_PTR(CLASS, TYPE, accessor, defval) \
42		static TYPE* accessor () { \
43		static TYPE* ptr; \
44		if (!ptr) { \
45		static TYPE val = defval; \
46		ptr = panda::get_global_ptr(&val, #accessor); \
47		} \
48		return ptr; \
49		}
50
51		#define PANDA_TLS_MEMBER_PTR(CLASS, TYPE, accessor, defval) \
52		static TYPE accessor () { \
53		static thread_local TYPE _ptr; \
54		TYPE ptr = _ptr; \
55		if (!ptr) ptr = _ptr = panda::get_global_tls_ptr(defval, #accessor); \
56		return ptr; \
57		}
58
59		#define PANDA_TLS_MEMBER(CLASS, TYPE, accessor, defval) \
60		static TYPE& accessor () { \
61		static thread_local TYPE* _ptr; \
62		TYPE* ptr = _ptr; \
63		if (!ptr) { \
64		static thread_local TYPE val = defval; \
65		ptr = _ptr = panda::get_global_tls_ptr(&val, #accessor); \
66		} \
67		return *ptr; \
68		}
69
70		#define PANDA_TLS_MEMBER_AS_PTR(CLASS, TYPE, accessor, defval) \
71		static TYPE* accessor () { \
72		static thread_local TYPE* _ptr; \
73		TYPE* ptr = _ptr; \
74		if (!ptr) { \
75		static thread_local TYPE val = defval; \
76		ptr = _ptr = panda::get_global_tls_ptr(&val, #accessor); \
77		} \
78		return ptr; \
79		}
80
81		struct MemoryPool {
82		MemoryPool (size_t blocksize) : first_free(NULL) {
83		this->blocksize = round_up(blocksize);
84		}
85
86		void* allocate () {
87		if (!first_free) grow();
88		void* ret = first_free;
89		first_free = ((void*)ret);
90		return ret;
91		}
92
93		void deallocate (void* elem) {
94		#ifdef TEST_FULL
95		if(!is_mine(elem)) abort(); // protection for debugging, normally you MUST NEVER pass a pointer that wasn't created via current mempool
96		#endif
97		((void*)elem) = first_free;
98		first_free = elem;
99		}
100
101		~MemoryPool ();
102
103		private:
104		struct Pool {
105		char* list;
106		size_t size;
107		size_t len;
108		};
109		size_t blocksize;
110		std::vector pools;
111		void* first_free;
112
113		void grow ();
114		bool is_mine (void* elem);
115
116		inline static size_t round_up (size_t size) {
117		assert(size > 0);
118		const size_t factor = sizeof(void*);
119		if ((size & (factor-1)) == 0) return size;
120		size += factor;
121		size &= ~((size_t)(factor-1));
122		return size;
123		}
124		};
125
126		template
127		struct StaticMemoryPool {
128		PANDA_GLOBAL_MEMBER_PTR(StaticMemoryPool, MemoryPool*, global_instance, new MemoryPool(BLOCKSIZE));
129		PANDA_TLS_MEMBER_PTR (StaticMemoryPool, MemoryPool*, instance, new MemoryPool(BLOCKSIZE));
130
131		static void* allocate () { return instance()->allocate(); }
132		static void deallocate (void* p) { instance()->deallocate(p); }
133		};
134
135		template <> struct StaticMemoryPool<7> : StaticMemoryPool<8> {};
136		template <> struct StaticMemoryPool<6> : StaticMemoryPool<8> {};
137		template <> struct StaticMemoryPool<5> : StaticMemoryPool<8> {};
138		template <> struct StaticMemoryPool<4> : StaticMemoryPool<8> {};
139		template <> struct StaticMemoryPool<3> : StaticMemoryPool<8> {};
140		template <> struct StaticMemoryPool<2> : StaticMemoryPool<8> {};
141		template <> struct StaticMemoryPool<1> : StaticMemoryPool<8> {};
142
143
144		struct DynamicMemoryPool {
145		static DynamicMemoryPool* global_instance () { return _global_instance; }
146
147		PANDA_TLS_MEMBER_PTR(DynamicMemoryPool, DynamicMemoryPool*, instance, new DynamicMemoryPool());
148
149		DynamicMemoryPool ();
150
151		void* allocate (size_t size) {
152		if (size == 0) return NULL;
153		MemoryPool* pool;
154		if (size <= 1024) {
155		pool = small_pools[(size-1)>>2];
156		if (!pool) pool = small_pools[(size-1)>>2] = new MemoryPool((((size-1)>>2) + 1)<<2);
157		}
158		else if (size <= 16384) {
159		pool = medium_pools[(size-1)>>6];
160		if (!pool) pool = medium_pools[(size-1)>>6] = new MemoryPool((((size-1)>>6) + 1)<<6);
161		}
162		else if (size <= 262144) {
163		pool = big_pools[(size-1)>>10];
164		if (!pool) pool = big_pools[(size-1)>>10] = new MemoryPool((((size-1)>>10) + 1)<<10);
165		}
166		else throw std::invalid_argument("ObjectAllocator: object size cannot exceed 256k");
167
168		return pool->allocate();
169		}
170
171		void deallocate (void* ptr, size_t size) {
172		if (ptr == NULL \|\| size == 0) return;
173		MemoryPool* pool;
174		if (size <= 1024) pool = small_pools[(size-1)>>2];
175		else if (size <= 16384) pool = medium_pools[(size-1)>>6];
176		else if (size <= 262144) pool = big_pools[(size-1)>>10];
177		else throw std::invalid_argument("ObjectAllocator: object size cannot exceed 256k");
178		pool->deallocate(ptr);
179		}
180
181		~DynamicMemoryPool ();
182
183		private:
184		static constexpr const int POOLS_CNT = 256;
185		static DynamicMemoryPool* _global_instance;
186		MemoryPool* small_pools[POOLS_CNT];
187		MemoryPool* medium_pools[POOLS_CNT];
188		MemoryPool* big_pools[POOLS_CNT];
189
190		};
191
192		template
193		struct AllocatedObject {
194		static void* operator new (size_t, void* p) { return p; }
195
196		static void* operator new (size_t size) {
197		if (size == sizeof(TARGET)) return StaticMemoryPool::allocate();
198		else return DynamicMemoryPool::instance()->allocate(size);
199		}
200
201		static void operator delete (void* p, size_t size) {
202		if (size == sizeof(TARGET)) StaticMemoryPool::deallocate(p);
203		else DynamicMemoryPool::instance()->deallocate(p, size);
204		}
205		};
206
207		template
208		struct AllocatedObject {
209		static void* operator new (size_t, void* p) { return p; }
210
211		static void* operator new (size_t size) {
212		if (size == sizeof(TARGET)) return StaticMemoryPool::global_instance()->allocate();
213		else return DynamicMemoryPool::global_instance()->allocate(size);
214		}
215
216		static void operator delete (void* p, size_t size) {
217		if (size == sizeof(TARGET)) StaticMemoryPool::global_instance()->deallocate(p);
218		else DynamicMemoryPool::global_instance()->deallocate(p, size);
219		}
220		};
221
222		}