diff options
author | 3gg <3gg@shellblade.net> | 2024-03-09 08:36:02 -0800 |
---|---|---|
committer | 3gg <3gg@shellblade.net> | 2024-03-09 08:36:02 -0800 |
commit | afe1e1d12e42a0881aff63c766c14e48319b560c (patch) | |
tree | a17d08200e0046eb8929812fd2d9116a364ca04f /mem | |
parent | 3b3c2c14a1eda5894d5db27bbaf4dd5f9a8c67db (diff) |
Define functions to get the number of used blocks.
Diffstat (limited to 'mem')
-rw-r--r-- | mem/include/mem.h | 37 | ||||
-rw-r--r-- | mem/src/mem.c | 16 | ||||
-rw-r--r-- | mem/test/mem_test.c | 8 |
3 files changed, 47 insertions, 14 deletions
diff --git a/mem/include/mem.h b/mem/include/mem.h index 892ea4f..224b069 100644 --- a/mem/include/mem.h +++ b/mem/include/mem.h | |||
@@ -86,9 +86,15 @@ | |||
86 | #define mem_get_chunk_handle(MEM, CHUNK_PTR) \ | 86 | #define mem_get_chunk_handle(MEM, CHUNK_PTR) \ |
87 | mem_get_chunk_handle_(&(MEM)->mem, CHUNK_PTR) | 87 | mem_get_chunk_handle_(&(MEM)->mem, CHUNK_PTR) |
88 | 88 | ||
89 | /// Return the total capacity of the allocator in bytes. | 89 | /// Return the block size in bytes. |
90 | #define mem_block_size_bytes(MEM) memp_block_size_bytes_(&(MEM)->pool) | ||
91 | |||
92 | /// Return the total capacity of the allocator. | ||
90 | #define mem_capacity(MEM) mem_capacity_(&(MEM)->mem) | 93 | #define mem_capacity(MEM) mem_capacity_(&(MEM)->mem) |
91 | 94 | ||
95 | /// Return the number of used blocks in the allocator. | ||
96 | #define mem_size(MEM) mem_size_(&(MEM)->mem) | ||
97 | |||
92 | /// Set whether to trap when attempting to allocate beyond capacity. | 98 | /// Set whether to trap when attempting to allocate beyond capacity. |
93 | #define mem_enable_traps(MEM, enable) mem_enable_traps_(&(MEM)->mem, enable) | 99 | #define mem_enable_traps(MEM, enable) mem_enable_traps_(&(MEM)->mem, enable) |
94 | 100 | ||
@@ -97,18 +103,20 @@ | |||
97 | /// The caller can use 'i' as the index of the current chunk. | 103 | /// The caller can use 'i' as the index of the current chunk. |
98 | /// | 104 | /// |
99 | /// It is valid to mem_free() the chunk at each step of the iteration. | 105 | /// It is valid to mem_free() the chunk at each step of the iteration. |
100 | #define mem_foreach(MEM, ITER, BODY) \ | 106 | #define mem_foreach(MEM, ITER, BODY) \ |
101 | { \ | 107 | { \ |
102 | size_t i = 0; \ | 108 | size_t i = 0; \ |
103 | do { \ | 109 | if ((MEM)->mem.num_used_blocks > 0) { \ |
104 | if ((MEM)->mem.chunks[i].used) { \ | 110 | do { \ |
105 | __typeof__((MEM)->object[0])* ITER = \ | 111 | if ((MEM)->mem.chunks[i].used) { \ |
106 | &(((__typeof__((MEM)->object[0])*)(MEM)->mem.blocks))[i]; \ | 112 | __typeof__((MEM)->object[0])* ITER = \ |
107 | (void)ITER; \ | 113 | &(((__typeof__((MEM)->object[0])*)(MEM)->mem.blocks))[i]; \ |
108 | BODY; \ | 114 | (void)ITER; \ |
109 | } \ | 115 | BODY; \ |
110 | i = (MEM)->mem.chunks[i].next; \ | 116 | } \ |
111 | } while (i); \ | 117 | i = (MEM)->mem.chunks[i].next; \ |
118 | } while (i); \ | ||
119 | } \ | ||
112 | } | 120 | } |
113 | 121 | ||
114 | // ----------------------------------------------------------------------------- | 122 | // ----------------------------------------------------------------------------- |
@@ -137,6 +145,7 @@ typedef struct Chunk { | |||
137 | typedef struct Memory { | 145 | typedef struct Memory { |
138 | size_t block_size_bytes; | 146 | size_t block_size_bytes; |
139 | size_t num_blocks; | 147 | size_t num_blocks; |
148 | size_t num_used_blocks; | ||
140 | size_t next_free_chunk; | 149 | size_t next_free_chunk; |
141 | bool dynamic; /// True if blocks and chunks are dynamically-allocated. | 150 | bool dynamic; /// True if blocks and chunks are dynamically-allocated. |
142 | bool trap; /// Whether to trap when allocating beyond capacity. | 151 | bool trap; /// Whether to trap when allocating beyond capacity. |
@@ -164,5 +173,7 @@ void* mem_alloc_(Memory*, size_t num_blocks); | |||
164 | void mem_free_(Memory*, void** chunk_ptr); | 173 | void mem_free_(Memory*, void** chunk_ptr); |
165 | void* mem_get_chunk_(const Memory*, size_t chunk_handle); | 174 | void* mem_get_chunk_(const Memory*, size_t chunk_handle); |
166 | size_t mem_get_chunk_handle_(const Memory*, const void* chunk); | 175 | size_t mem_get_chunk_handle_(const Memory*, const void* chunk); |
176 | size_t mem_block_size_bytes_(const Memory*); | ||
167 | size_t mem_capacity_(const Memory*); | 177 | size_t mem_capacity_(const Memory*); |
178 | size_t mem_size_(const Memory*); | ||
168 | void mem_enable_traps_(Memory*, bool); | 179 | void mem_enable_traps_(Memory*, bool); |
diff --git a/mem/src/mem.c b/mem/src/mem.c index 2904035..4f5e5ef 100644 --- a/mem/src/mem.c +++ b/mem/src/mem.c | |||
@@ -14,6 +14,7 @@ bool mem_make_( | |||
14 | 14 | ||
15 | mem->block_size_bytes = block_size_bytes; | 15 | mem->block_size_bytes = block_size_bytes; |
16 | mem->num_blocks = num_blocks; | 16 | mem->num_blocks = num_blocks; |
17 | mem->num_used_blocks = 0; | ||
17 | mem->next_free_chunk = 0; | 18 | mem->next_free_chunk = 0; |
18 | mem->trap = true; | 19 | mem->trap = true; |
19 | 20 | ||
@@ -107,6 +108,7 @@ void* mem_alloc_(Memory* mem, size_t num_blocks) { | |||
107 | } while (chunk_idx != start); | 108 | } while (chunk_idx != start); |
108 | 109 | ||
109 | if (found) { | 110 | if (found) { |
111 | mem->num_used_blocks++; | ||
110 | mem->next_free_chunk = mem->chunks[chunk_idx].next; | 112 | mem->next_free_chunk = mem->chunks[chunk_idx].next; |
111 | return &mem->blocks[chunk_idx * mem->block_size_bytes]; | 113 | return &mem->blocks[chunk_idx * mem->block_size_bytes]; |
112 | } else { | 114 | } else { |
@@ -168,6 +170,8 @@ void mem_free_(Memory* mem, void** chunk_ptr) { | |||
168 | } | 170 | } |
169 | } | 171 | } |
170 | 172 | ||
173 | mem->num_used_blocks--; | ||
174 | |||
171 | *chunk_ptr = 0; | 175 | *chunk_ptr = 0; |
172 | } | 176 | } |
173 | 177 | ||
@@ -189,9 +193,19 @@ size_t mem_get_chunk_handle_(const Memory* mem, const void* chunk) { | |||
189 | return block_byte_index / mem->block_size_bytes; | 193 | return block_byte_index / mem->block_size_bytes; |
190 | } | 194 | } |
191 | 195 | ||
196 | size_t mem_block_size_bytes_(const Memory* mem) { | ||
197 | assert(mem); | ||
198 | return mem->block_size_bytes; | ||
199 | } | ||
200 | |||
192 | size_t mem_capacity_(const Memory* mem) { | 201 | size_t mem_capacity_(const Memory* mem) { |
193 | assert(mem); | 202 | assert(mem); |
194 | return mem->num_blocks * mem->block_size_bytes; | 203 | return mem->num_blocks; |
204 | } | ||
205 | |||
206 | size_t mem_size_(const Memory* mem) { | ||
207 | assert(mem); | ||
208 | return mem->num_used_blocks; | ||
195 | } | 209 | } |
196 | 210 | ||
197 | void mem_enable_traps_(Memory* mem, bool enable) { | 211 | void mem_enable_traps_(Memory* mem, bool enable) { |
diff --git a/mem/test/mem_test.c b/mem/test/mem_test.c index d3c43b9..97db079 100644 --- a/mem/test/mem_test.c +++ b/mem/test/mem_test.c | |||
@@ -41,6 +41,8 @@ TEST_CASE(mem_fully_allocate) { | |||
41 | const int* block = mem_alloc(&mem, 1); | 41 | const int* block = mem_alloc(&mem, 1); |
42 | TEST_TRUE(block != 0); | 42 | TEST_TRUE(block != 0); |
43 | } | 43 | } |
44 | |||
45 | TEST_TRUE(mem_size(&mem) == NUM_BLOCKS); | ||
44 | } | 46 | } |
45 | 47 | ||
46 | // Allocate N chunks of 1 block each, then free them. | 48 | // Allocate N chunks of 1 block each, then free them. |
@@ -60,6 +62,7 @@ TEST_CASE(mem_fill_then_free) { | |||
60 | } | 62 | } |
61 | 63 | ||
62 | TEST_EQUAL(count(&mem), 0); | 64 | TEST_EQUAL(count(&mem), 0); |
65 | TEST_TRUE(mem_size(&mem) == 0); | ||
63 | } | 66 | } |
64 | 67 | ||
65 | // Attempt to allocate blocks past the maximum allocator size. | 68 | // Attempt to allocate blocks past the maximum allocator size. |
@@ -78,6 +81,8 @@ TEST_CASE(mem_allocate_beyond_max_size) { | |||
78 | for (int i = 0; i < NUM_BLOCKS; ++i) { | 81 | for (int i = 0; i < NUM_BLOCKS; ++i) { |
79 | TEST_EQUAL(mem_alloc(&mem, 1), 0); | 82 | TEST_EQUAL(mem_alloc(&mem, 1), 0); |
80 | } | 83 | } |
84 | |||
85 | TEST_TRUE(mem_size(&mem) == NUM_BLOCKS); | ||
81 | } | 86 | } |
82 | 87 | ||
83 | // Free blocks should always remain zeroed out. | 88 | // Free blocks should always remain zeroed out. |
@@ -114,6 +119,7 @@ TEST_CASE(mem_traverse_empty) { | |||
114 | mem_make(&mem); | 119 | mem_make(&mem); |
115 | 120 | ||
116 | TEST_EQUAL(count(&mem), 0); | 121 | TEST_EQUAL(count(&mem), 0); |
122 | TEST_TRUE(mem_size(&mem) == 0); | ||
117 | } | 123 | } |
118 | 124 | ||
119 | // Traverse a partially full allocator. | 125 | // Traverse a partially full allocator. |
@@ -130,6 +136,7 @@ TEST_CASE(mem_traverse_partially_full) { | |||
130 | } | 136 | } |
131 | 137 | ||
132 | TEST_EQUAL(sum(&mem), (N) * (N + 1) / 2); | 138 | TEST_EQUAL(sum(&mem), (N) * (N + 1) / 2); |
139 | TEST_TRUE(mem_size(&mem) == N); | ||
133 | } | 140 | } |
134 | 141 | ||
135 | // Traverse a full allocator. | 142 | // Traverse a full allocator. |
@@ -144,6 +151,7 @@ TEST_CASE(mem_traverse_full) { | |||
144 | } | 151 | } |
145 | 152 | ||
146 | TEST_EQUAL(sum(&mem), (NUM_BLOCKS) * (NUM_BLOCKS + 1) / 2); | 153 | TEST_EQUAL(sum(&mem), (NUM_BLOCKS) * (NUM_BLOCKS + 1) / 2); |
154 | TEST_TRUE(mem_size(&mem) == NUM_BLOCKS); | ||
147 | } | 155 | } |
148 | 156 | ||
149 | // Get the ith (allocated) chunk. | 157 | // Get the ith (allocated) chunk. |