ref: 41399234f6694133bbd64910b86ff61bce67367a
dir: /src/mem.c/
#include <stdlib.h>
#include <string.h>
#include "mem.h"
#include "utils.h"
static uint8_t hunk[MEM_HUNK_BYTES];
static uint32_t bump_len = 0;
static uint32_t temp_len = 0;
static uint32_t temp_objects[MEM_TEMP_OBJECTS_MAX] = {};
static uint32_t temp_objects_len;
// Bump allocator - returns bytes from the front of the hunk
// These allocations persist for many frames. The allocator level is reset
// whenever we load a new race track or menu in game_set_scene()
void *mem_mark() {
return &hunk[bump_len];
}
void *mem_bump(uint32_t size) {
error_if(bump_len + temp_len + size >= MEM_HUNK_BYTES, "Failed to allocate %d bytes in hunk mem", size);
uint8_t *p = &hunk[bump_len];
bump_len += size;
memset(p, 0, size);
return p;
}
void mem_reset(void *p) {
uint32_t offset = (uint8_t *)p - (uint8_t *)hunk;
error_if(offset > bump_len || offset > MEM_HUNK_BYTES, "Invalid mem reset");
bump_len = offset;
}
// Temp allocator - returns bytes from the back of the hunk
// Temporary allocated bytes are not allowed to persist for multiple frames. You
// need to explicitly free them when you are done. Temp allocated bytes don't
// have be freed in reverse allocation order. I.e. you can allocate A then B,
// and aftewards free A then B.
void *mem_temp_alloc(uint32_t size) {
size = ((size >> 3) + 7) << 3; // allign to 8 bytes
error_if(bump_len + temp_len + size >= MEM_HUNK_BYTES, "Failed to allocate %d bytes in temp mem", size);
error_if(temp_objects_len >= MEM_TEMP_OBJECTS_MAX, "MEM_TEMP_OBJECTS_MAX reached");
temp_len += size;
void *p = &hunk[MEM_HUNK_BYTES - temp_len];
temp_objects[temp_objects_len++] = temp_len;
return p;
}
void mem_temp_free(void *p) {
uint32_t offset = (uint8_t *)&hunk[MEM_HUNK_BYTES] - (uint8_t *)p;
error_if(offset > MEM_HUNK_BYTES, "Object 0x%p not in temp hunk", p);
bool found = false;
uint32_t remaining_max = 0;
for (int i = 0; i < temp_objects_len; i++) {
if (temp_objects[i] == offset) {
temp_objects[i--] = temp_objects[--temp_objects_len];
found = true;
}
else if (temp_objects[i] > remaining_max) {
remaining_max = temp_objects[i];
}
}
error_if(!found, "Object 0x%p not in temp hunk", p);
temp_len = remaining_max;
}
void mem_temp_check() {
error_if(temp_len != 0, "Temp memory not free: %d object(s)", temp_objects_len);
}