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3 Commits

Author SHA1 Message Date
9c5270124d finally fixed this memory bug
we were accidentally tracking frees of stuff that was never
allocated lol
2023-08-25 21:22:10 -05:00
5fc9af5564 more debug related refactoring 2023-08-25 20:44:24 -05:00
a1c58647ba minor CTable refactoring 2023-08-25 19:57:16 -05:00
7 changed files with 79 additions and 43 deletions

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@ -10,7 +10,22 @@
// realloc wrapper
void *cosmoM_reallocate(CState *state, void *buf, size_t oldSize, size_t newSize)
{
if (buf == NULL) oldSize = 0;
#ifdef GC_DEBUG
printf("old allocated bytes: %ld\n", state->allocatedBytes);
if (buf) {
if (newSize == 0) {
printf("freeing %p, reclaiming %ld bytes...\n", buf, oldSize);
} else {
printf("realloc %p, byte difference: %ld\n", buf, newSize - oldSize);
}
}
#endif
state->allocatedBytes += newSize - oldSize;
#ifdef GC_DEBUG
printf("new allocated bytes: %ld\n", state->allocatedBytes);
fflush(stdout);
#endif
if (newSize == 0) { // it needs to be freed
free(buf);
@ -33,6 +48,11 @@ void *cosmoM_reallocate(CState *state, void *buf, size_t oldSize, size_t newSize
// if NULL is passed, realloc() acts like malloc()
void *newBuf = realloc(buf, newSize);
#ifdef GC_DEBUG
printf("allocating new buffer of size %ld at %p\n", newSize - oldSize, newBuf);
fflush(stdout);
#endif
if (newBuf == NULL) {
CERROR("failed to allocate memory!");
exit(1);
@ -59,7 +79,7 @@ static void markTable(CState *state, CTable *tbl)
if (tbl->table == NULL) // table is still being initialized
return;
int cap = tbl->capacityMask + 1;
int cap = cosmoT_getCapacity(tbl);
for (int i = 0; i < cap; i++) {
CTableEntry *entry = &tbl->table[i];
markValue(state, entry->key);
@ -67,13 +87,18 @@ static void markTable(CState *state, CTable *tbl)
}
}
// frees white members from the table
// removes white members from the table
static void tableRemoveWhite(CState *state, CTable *tbl)
{
if (tbl->table == NULL) // table is still being initialized
return;
int cap = tbl->capacityMask + 1;
int cap = cosmoT_getCapacity(tbl);
#ifdef GC_DEBUG
printf("tableRemoveWhite: %p, cap: %d\n", tbl, cap);
#endif
for (int i = 0; i < cap; i++) {
CTableEntry *entry = &tbl->table[i];
if (IS_REF(entry->key) &&
@ -295,7 +320,6 @@ COSMO_API void cosmoM_collectGarbage(CState *state)
printf("-- GC end, reclaimed %ld bytes (started at %ld, ended at %ld), next garbage collection "
"scheduled at %ld bytes\n",
start - state->allocatedBytes, start, state->allocatedBytes, state->nextGC);
getchar(); // pauses execution
#endif
}

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@ -73,10 +73,13 @@ COSMO_API void cosmoM_addRoot(CState *state, CObj *newRoot);
// lets the VM know this root is no longer held in a reference and is able to be freed
COSMO_API void cosmoM_removeRoot(CState *state, CObj *oldRoot);
// wrapper for cosmoM_reallocate so we can track our memory usage (it's also safer :P)
// wrapper for cosmoM_reallocate so we can track our memory usage
static inline void *cosmoM_xmalloc(CState *state, size_t sz)
{
return cosmoM_reallocate(state, NULL, 0, sz);
}
// #define cosmoM_xmalloc(state, sz) \
// (printf("allocating new buffer at %s:%d of size %ld\n", __FILE__, __LINE__, sz), cosmoM_reallocate(state, NULL, 0, sz))
#endif

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@ -33,7 +33,7 @@ CObj *cosmoO_allocateBase(CState *state, size_t sz, CObjType type)
obj->nextRoot = NULL;
#ifdef GC_DEBUG
printf("allocated %p with OBJ_TYPE %d\n", obj, type);
printf("allocated %s %p\n", cosmoO_typeStr(obj), obj);
#endif
return obj;
}
@ -41,9 +41,7 @@ CObj *cosmoO_allocateBase(CState *state, size_t sz, CObjType type)
void cosmoO_free(CState *state, CObj *obj)
{
#ifdef GC_DEBUG
printf("freeing %p [", obj);
printObject(obj);
printf("]\n");
printf("freeing %s %p\n", cosmoO_typeStr(obj), obj);
#endif
switch (obj->type) {
case COBJ_STRING: {

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@ -26,7 +26,7 @@ CState *cosmoV_newState()
state->grayStack.count = 0;
state->grayStack.capacity = 2;
state->grayStack.array = NULL;
state->allocatedBytes = sizeof(CState);
state->allocatedBytes = 0;
state->nextGC = 1024 * 8; // threshhold starts at 8kb
// init stack
@ -86,6 +86,12 @@ void cosmoV_freeState(CState *state)
CObj *objs = state->objects;
while (objs != NULL) {
CObj *next = objs->next;
#ifdef GC_DEBUG
printf("STATE FREEING %p\n", objs);
fflush(stdout);
#endif
cosmoO_free(state, objs);
objs = next;
}
@ -100,13 +106,12 @@ void cosmoV_freeState(CState *state)
// free our gray stack & finally free the state structure
cosmoM_freearray(state, CObj *, state->grayStack.array, state->grayStack.capacity);
// TODO: yeah idk, it looks like im missing 520 bytes somewhere? i'll look into it later
/*#ifdef GC_DEBUG
if (state->allocatedBytes != sizeof(CState)) {
printf("state->allocatedBytes doesn't match expected value (%lu), got %lu!",
sizeof(CState), state->allocatedBytes); exit(0);
#ifdef GC_DEBUG
if (state->allocatedBytes != 0) {
printf("state->allocatedBytes doesn't match, got %lu\n", state->allocatedBytes);
}
#endif*/
#endif
free(state);
}

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@ -34,6 +34,7 @@ void cosmoT_initTable(CState *state, CTable *tbl, int startCap)
tbl->capacityMask = startCap - 1;
tbl->count = 0;
tbl->tombstones = 0;
tbl->tombThreshold = 32;
tbl->table = NULL; // to let out GC know we're initalizing
tbl->table = cosmoM_xmalloc(state, sizeof(CTableEntry) * startCap);
@ -47,7 +48,7 @@ void cosmoT_initTable(CState *state, CTable *tbl, int startCap)
void cosmoT_addTable(CState *state, CTable *from, CTable *to)
{
CTableEntry *entry;
int cap = from->capacityMask + 1;
int cap = cosmoT_getCapacity(from);
for (int i = 0; i < cap; i++) {
entry = &from->table[i];
@ -60,7 +61,7 @@ void cosmoT_addTable(CState *state, CTable *from, CTable *to)
void cosmoT_clearTable(CState *state, CTable *tbl)
{
cosmoM_freearray(state, CTableEntry, tbl->table, (tbl->capacityMask + 1));
cosmoM_freearray(state, CTableEntry, tbl->table, cosmoT_getCapacity(tbl));
}
static uint32_t getObjectHash(CObj *obj)
@ -113,10 +114,10 @@ static CTableEntry *findEntry(CState *state, CTableEntry *entries, int mask, CVa
if (IS_NIL(entry->val)) {
// it's empty! if we found a tombstone, return that so it'll be reused
return tomb != NULL ? tomb : entry;
} else {
}
// its a tombstone!
tomb = entry;
}
} else if (cosmoV_equal(state, entry->key, key)) {
return entry;
}
@ -141,7 +142,7 @@ static void resizeTbl(CState *state, CTable *tbl, int newCapacity, bool canShrin
return;
CTableEntry *entries = cosmoM_xmalloc(state, size);
oldCap = tbl->capacityMask + 1;
oldCap = cosmoT_getCapacity(tbl);
newCount = 0;
// set all nodes as NIL : NIL
@ -176,10 +177,10 @@ bool cosmoT_checkShrink(CState *state, CTable *tbl)
{
// if count > 8 and active entries < tombstones
if (tbl->count > MIN_TABLE_CAPACITY &&
(tbl->count - tbl->tombstones < tbl->tombstones ||
tbl->tombstones > 50)) { // TODO: 50 should be a threshhold
resizeTbl(state, tbl, nextPow2(tbl->count - tbl->tombstones) * GROW_FACTOR,
false); // shrink based on active entries to the next pow of 2
(tbl->count - tbl->tombstones < tbl->tombstones || tbl->tombstones > tbl->tombThreshold)) {
// shrink based on active entries to the next pow of 2
resizeTbl(state, tbl, nextPow2(tbl->count - tbl->tombstones) * GROW_FACTOR, false);
tbl->tombThreshold = tbl->count / 4;
return true;
}
@ -190,7 +191,7 @@ bool cosmoT_checkShrink(CState *state, CTable *tbl)
COSMO_API CValue *cosmoT_insert(CState *state, CTable *tbl, CValue key)
{
// make sure we have enough space allocated
int cap = tbl->capacityMask + 1;
int cap = cosmoT_getCapacity(tbl);
if (tbl->count + 1 > (int)(cap * MAX_TABLE_FILL)) {
// grow table
int newCap = cap * GROW_FACTOR;
@ -198,8 +199,7 @@ COSMO_API CValue *cosmoT_insert(CState *state, CTable *tbl, CValue key)
}
// insert into the table
CTableEntry *entry =
findEntry(state, tbl->table, tbl->capacityMask, key); // -1 for our capacity mask
CTableEntry *entry = findEntry(state, tbl->table, tbl->capacityMask, key);
if (IS_NIL(entry->key)) {
if (IS_NIL(entry->val)) // is it empty?
@ -255,9 +255,10 @@ CObjString *cosmoT_lookupString(CTable *tbl, const char *str, int length, uint32
{
if (tbl->count == 0)
return 0; // sanity check
uint32_t indx =
hash & tbl->capacityMask; // since we know the capacity will *always* be a power of 2, we
// since we know the capacity will *always* be a power of 2, we
// can use bitwise & to perform a MUCH faster mod operation
uint32_t indx = hash & tbl->capacityMask;
// keep looking for an open slot in the entries array
while (true) {
@ -280,7 +281,7 @@ CObjString *cosmoT_lookupString(CTable *tbl, const char *str, int length, uint32
void cosmoT_printTable(CTable *tbl, const char *name)
{
printf("==== [[%s]] ====\n", name);
int cap = tbl->capacityMask + 1;
int cap = cosmoT_getCapacity(tbl);
for (int i = 0; i < cap; i++) {
CTableEntry *entry = &tbl->table[i];
if (!(IS_NIL(entry->key))) {

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@ -18,9 +18,12 @@ typedef struct CTable
int count;
int capacityMask; // +1 to get the capacity
int tombstones;
int tombThreshold;
CTableEntry *table;
} CTable;
#define cosmoT_getCapacity(tbl) ((tbl)->capacityMask + 1)
COSMO_API void cosmoT_initTable(CState *state, CTable *tbl, int startCap);
COSMO_API void cosmoT_clearTable(CState *state, CTable *tbl);
COSMO_API int cosmoT_count(CTable *tbl);

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@ -640,7 +640,7 @@ int _tbl__next(CState *state, int nargs, CValue *args)
CObjTable *table = (CObjTable *)cosmoV_readRef(val);
// while the entry is invalid, go to the next entry
int cap = table->tbl.capacityMask + 1;
int cap = cosmoT_getCapacity(&table->tbl);
CTableEntry *entry;
do {
entry = &table->tbl.table[index++];
@ -1037,7 +1037,9 @@ int cosmoV_execute(CState *state)
cosmoV_pop(state); // pop the object from the stack
cosmoV_pushValue(state, val);
cosmoV_pushRef(state, (CObj *)obj);
if (!cosmoV_call(state, 1, 1)) // we expect 1 return value on the stack, the iterable object
if (!cosmoV_call(
state, 1,
1)) // we expect 1 return value on the stack, the iterable object
return -1;
StkPtr iObj = cosmoV_getTop(state, 0);