diff options
author | 3gg <3gg@shellblade.net> | 2023-07-13 09:19:08 -0700 |
---|---|---|
committer | 3gg <3gg@shellblade.net> | 2023-07-13 09:19:08 -0700 |
commit | 987d395b7b88b58cb412c88a57deb0e1eada1c37 (patch) | |
tree | a7394546c110266a0b480b3ec34057d82781f2c2 /mempool/src/mempool.c | |
parent | de8bbfdfa0f9e95ec2f9847762f5c009765b92f4 (diff) |
Add a free list to mempool.
Diffstat (limited to 'mempool/src/mempool.c')
-rw-r--r-- | mempool/src/mempool.c | 78 |
1 files changed, 40 insertions, 38 deletions
diff --git a/mempool/src/mempool.c b/mempool/src/mempool.c index 059db93..fdb5f8c 100644 --- a/mempool/src/mempool.c +++ b/mempool/src/mempool.c | |||
@@ -3,22 +3,39 @@ | |||
3 | #include <stdlib.h> | 3 | #include <stdlib.h> |
4 | #include <string.h> | 4 | #include <string.h> |
5 | 5 | ||
6 | #define NO_BLOCK ((size_t)-1) | ||
7 | |||
6 | static inline size_t min(size_t a, size_t b) { return a < b ? a : b; } | 8 | static inline size_t min(size_t a, size_t b) { return a < b ? a : b; } |
7 | 9 | ||
10 | /// Initialize the free list. | ||
11 | /// All of the blocks in the pool are assumed free. | ||
12 | static void init_free_list(mempool* pool) { | ||
13 | assert(pool); | ||
14 | for (size_t i = 0; i < pool->num_blocks - 1; ++i) { | ||
15 | pool->block_info[i].next = i + 1; | ||
16 | } | ||
17 | pool->block_info[pool->num_blocks - 1].next = NO_BLOCK; | ||
18 | } | ||
19 | |||
8 | bool mempool_make_( | 20 | bool mempool_make_( |
9 | mempool* pool, BlockInfo* block_info, void* blocks, size_t num_blocks, | 21 | mempool* pool, BlockInfo* block_info, void* blocks, size_t num_blocks, |
10 | size_t block_size_bytes) { | 22 | size_t block_size_bytes) { |
11 | assert(pool); | 23 | assert(pool); |
12 | assert((block_info && blocks) || (!block_info && !blocks)); | 24 | assert((block_info && blocks) || (!block_info && !blocks)); |
13 | assert(num_blocks >= 1); | 25 | assert(num_blocks >= 1); |
26 | |||
14 | pool->block_size_bytes = block_size_bytes; | 27 | pool->block_size_bytes = block_size_bytes; |
15 | pool->num_blocks = num_blocks; | 28 | pool->num_blocks = num_blocks; |
16 | pool->next_free_block = 0; | 29 | pool->head = 0; |
17 | pool->full = false; | 30 | |
31 | // Initialize blocks and block info. | ||
18 | if (!block_info) { | 32 | if (!block_info) { |
19 | block_info = calloc(num_blocks, sizeof(BlockInfo)); | 33 | block_info = calloc(num_blocks, sizeof(BlockInfo)); |
20 | blocks = calloc(num_blocks, block_size_bytes); | 34 | blocks = calloc(num_blocks, block_size_bytes); |
21 | pool->dynamic = true; | 35 | pool->dynamic = true; |
36 | if ((block_info == 0) || (blocks == 0)) { | ||
37 | return false; | ||
38 | } | ||
22 | } else { | 39 | } else { |
23 | memset(blocks, 0, num_blocks * block_size_bytes); | 40 | memset(blocks, 0, num_blocks * block_size_bytes); |
24 | memset(block_info, 0, num_blocks * sizeof(BlockInfo)); | 41 | memset(block_info, 0, num_blocks * sizeof(BlockInfo)); |
@@ -26,7 +43,10 @@ bool mempool_make_( | |||
26 | } | 43 | } |
27 | pool->block_info = block_info; | 44 | pool->block_info = block_info; |
28 | pool->blocks = blocks; | 45 | pool->blocks = blocks; |
29 | return (block_info != 0) && (blocks != 0); | 46 | |
47 | init_free_list(pool); | ||
48 | |||
49 | return true; | ||
30 | } | 50 | } |
31 | 51 | ||
32 | void mempool_del_(mempool* pool) { | 52 | void mempool_del_(mempool* pool) { |
@@ -45,37 +65,24 @@ void mempool_del_(mempool* pool) { | |||
45 | 65 | ||
46 | void mempool_clear_(mempool* pool) { | 66 | void mempool_clear_(mempool* pool) { |
47 | assert(pool); | 67 | assert(pool); |
48 | pool->next_free_block = 0; | 68 | pool->head = 0; |
49 | pool->full = false; | ||
50 | memset(pool->blocks, 0, pool->num_blocks * pool->block_size_bytes); | 69 | memset(pool->blocks, 0, pool->num_blocks * pool->block_size_bytes); |
51 | memset(pool->block_info, 0, pool->num_blocks * sizeof(BlockInfo)); | 70 | memset(pool->block_info, 0, pool->num_blocks * sizeof(BlockInfo)); |
71 | init_free_list(pool); | ||
52 | } | 72 | } |
53 | 73 | ||
54 | void* mempool_alloc_(mempool* pool) { | 74 | void* mempool_alloc_(mempool* pool) { |
55 | assert(pool); | 75 | assert(pool); |
56 | 76 | ||
57 | if (pool->full) { | 77 | if (pool->head == NO_BLOCK) { |
58 | return 0; | 78 | return 0; |
59 | } | 79 | } |
60 | 80 | ||
61 | // Allocate the block. | 81 | // Allocate the block. |
62 | void* block = &pool->blocks[pool->next_free_block * pool->block_size_bytes]; | 82 | BlockInfo* head = &pool->block_info[pool->head]; |
63 | pool->block_info[pool->next_free_block].used = true; | 83 | void* block = &pool->blocks[pool->head * pool->block_size_bytes]; |
64 | 84 | head->used = true; | |
65 | // Search for the next free block. If it does not exist, flag the pool | 85 | pool->head = head->next; |
66 | // full. | ||
67 | // | ||
68 | // The search starts near the current free block, where we might be more | ||
69 | // likely to find free blocks. The search starts with i=1 since we only | ||
70 | // need to test the other N-1 blocks in the pool. | ||
71 | pool->full = true; | ||
72 | for (size_t i = 1; i < pool->num_blocks; i++) { | ||
73 | pool->next_free_block = (pool->next_free_block + 1) % pool->num_blocks; | ||
74 | if (!pool->block_info[pool->next_free_block].used) { | ||
75 | pool->full = false; | ||
76 | break; | ||
77 | } | ||
78 | } | ||
79 | 86 | ||
80 | return block; | 87 | return block; |
81 | } | 88 | } |
@@ -84,27 +91,22 @@ void mempool_free_(mempool* pool, void** block_ptr) { | |||
84 | assert(pool); | 91 | assert(pool); |
85 | assert(block_ptr); | 92 | assert(block_ptr); |
86 | 93 | ||
87 | // Zero out the block so that we don't get stray values the next time it is | ||
88 | // allocated. | ||
89 | memset(*block_ptr, 0, pool->block_size_bytes); | ||
90 | |||
91 | const size_t block_index = | 94 | const size_t block_index = |
92 | ((uint8_t*)*block_ptr - pool->blocks) / pool->block_size_bytes; | 95 | ((uint8_t*)*block_ptr - pool->blocks) / pool->block_size_bytes; |
93 | assert(block_index < pool->num_blocks); | 96 | assert(block_index < pool->num_blocks); |
97 | BlockInfo* info = &pool->block_info[block_index]; | ||
94 | 98 | ||
95 | // Disallow double-frees. | 99 | // Disallow double-frees. |
96 | assert(pool->block_info[block_index].used); | 100 | assert(info->used); |
97 | 101 | ||
98 | pool->block_info[block_index].used = false; | 102 | // Zero out the block so that we don't get stray values the next time it is |
99 | if (pool->full) { | 103 | // allocated. |
100 | pool->next_free_block = block_index; | 104 | memset(*block_ptr, 0, pool->block_size_bytes); |
101 | pool->full = false; | 105 | |
102 | } else { | 106 | // Free the block and add it to the head of the free list. |
103 | // Prefer to allocate blocks towards the start of the pool. This way, blocks | 107 | info->used = false; |
104 | // should cluster around this area and the pool should offer better memory | 108 | info->next = pool->head; |
105 | // locality for used blocks. | 109 | pool->head = block_index; |
106 | pool->next_free_block = min(pool->next_free_block, block_index); | ||
107 | } | ||
108 | 110 | ||
109 | *block_ptr = 0; | 111 | *block_ptr = 0; |
110 | } | 112 | } |