Idris2/support/refc/memoryManagement.c
Stiopa Koltsov 1fac812435 In RefC, allocate the exact size of value subtype
* remove `Value.payload` field
* `IDRIS2_NEW_VALUE` macro now allocates the size needed for the struct
2021-07-12 16:27:09 +01:00

354 lines
8.8 KiB
C

#include "runtime.h"
Value *newValue(size_t size)
{
Value *retVal = (Value *)malloc(size);
retVal->header.refCounter = 1;
retVal->header.tag = NO_TAG;
return retVal;
}
Value_Arglist *newArglist(int missing, int total)
{
Value_Arglist *retVal = IDRIS2_NEW_VALUE(Value_Arglist);
retVal->header.tag = ARGLIST_TAG;
retVal->total = total;
retVal->filled = total - missing;
retVal->args = (Value **)malloc(sizeof(Value *) * total);
memset(retVal->args, 0, sizeof(Value *) * total);
return retVal;
}
Value_Constructor *newConstructor(int total, int tag, const char *name)
{
Value_Constructor *retVal = IDRIS2_NEW_VALUE(Value_Constructor);
retVal->header.tag = CONSTRUCTOR_TAG;
retVal->total = total;
retVal->tag = tag;
int nameLength = strlen(name);
retVal->name = malloc(nameLength + 1);
memset(retVal->name, 0, nameLength + 1);
memcpy(retVal->name, name, nameLength);
retVal->args = (Value **)malloc(sizeof(Value *) * total);
return retVal;
}
Value_Closure *makeClosureFromArglist(fun_ptr_t f, Value_Arglist *arglist)
{
Value_Closure *retVal = IDRIS2_NEW_VALUE(Value_Closure);
retVal->header.tag = CLOSURE_TAG;
retVal->arglist = arglist; // (Value_Arglist *)newReference((Value*)arglist);
retVal->f = f;
if (retVal->arglist->filled >= retVal->arglist->total)
{
retVal->header.tag = COMPLETE_CLOSURE_TAG;
}
return retVal;
}
Value_Double *makeDouble(double d)
{
Value_Double *retVal = IDRIS2_NEW_VALUE(Value_Double);
retVal->header.tag = DOUBLE_TAG;
retVal->d = d;
return retVal;
}
Value_Char *makeChar(char c)
{
Value_Char *retVal = IDRIS2_NEW_VALUE(Value_Char);
retVal->header.tag = CHAR_TAG;
retVal->c = c;
return retVal;
}
Value_Bits8 *makeBits8(uint8_t i)
{
Value_Bits8 *retVal = IDRIS2_NEW_VALUE(Value_Bits8);
retVal->header.tag = BITS8_TAG;
retVal->ui8 = i;
return retVal;
}
Value_Bits16 *makeBits16(uint16_t i)
{
Value_Bits16 *retVal = IDRIS2_NEW_VALUE(Value_Bits16);
retVal->header.tag = BITS16_TAG;
retVal->ui16 = i;
return retVal;
}
Value_Bits32 *makeBits32(uint32_t i)
{
Value_Bits32 *retVal = IDRIS2_NEW_VALUE(Value_Bits32);
retVal->header.tag = BITS32_TAG;
retVal->ui32 = i;
return retVal;
}
Value_Bits64 *makeBits64(uint64_t i)
{
Value_Bits64 *retVal = IDRIS2_NEW_VALUE(Value_Bits64);
retVal->header.tag = BITS64_TAG;
retVal->ui64 = i;
return retVal;
}
Value_Int8 *makeInt8(int8_t i)
{
Value_Int8 *retVal = IDRIS2_NEW_VALUE(Value_Int8);
retVal->header.tag = INT8_TAG;
retVal->i8 = i;
return retVal;
}
Value_Int16 *makeInt16(int16_t i)
{
Value_Int16 *retVal = IDRIS2_NEW_VALUE(Value_Int16);
retVal->header.tag = INT16_TAG;
retVal->i16 = i;
return retVal;
}
Value_Int32 *makeInt32(int32_t i)
{
Value_Int32 *retVal = IDRIS2_NEW_VALUE(Value_Int32);
retVal->header.tag = INT32_TAG;
retVal->i32 = i;
return retVal;
}
Value_Int64 *makeInt64(int64_t i)
{
Value_Int64 *retVal = IDRIS2_NEW_VALUE(Value_Int64);
retVal->header.tag = INT64_TAG;
retVal->i64 = i;
return retVal;
}
Value_Int8 *makeBool(int p)
{
return makeInt8(p ? 1 : 0);
}
Value_Integer *makeInteger()
{
Value_Integer *retVal = IDRIS2_NEW_VALUE(Value_Integer);
retVal->header.tag = INTEGER_TAG;
mpz_init(retVal->i);
return retVal;
}
Value_Integer *makeIntegerLiteral(char *i)
{
Value_Integer *retVal = makeInteger();
mpz_set_str(retVal->i, i, 10);
return retVal;
}
Value_String *makeEmptyString(size_t l)
{
Value_String *retVal = IDRIS2_NEW_VALUE(Value_String);
retVal->header.tag = STRING_TAG;
retVal->str = malloc(l);
memset(retVal->str, 0, l);
return retVal;
}
Value_String *makeString(char *s)
{
Value_String *retVal = IDRIS2_NEW_VALUE(Value_String);
int l = strlen(s);
retVal->header.tag = STRING_TAG;
retVal->str = malloc(l + 1);
memset(retVal->str, 0, l + 1);
memcpy(retVal->str, s, l);
return retVal;
}
Value_Pointer *makePointer(void *ptr_Raw)
{
Value_Pointer *p = IDRIS2_NEW_VALUE(Value_Pointer);
p->header.tag = POINTER_TAG;
p->p = ptr_Raw;
return p;
}
Value_GCPointer *makeGCPointer(void *ptr_Raw, Value_Closure *onCollectFct)
{
Value_GCPointer *p = IDRIS2_NEW_VALUE(Value_GCPointer);
p->header.tag = GC_POINTER_TAG;
p->p = makePointer(ptr_Raw);
p->onCollectFct = onCollectFct;
return p;
}
Value_Buffer *makeBuffer(void *buf)
{
Value_Buffer *b = IDRIS2_NEW_VALUE(Value_Buffer);
b->header.tag = BUFFER_TAG;
b->buffer = buf;
return b;
}
Value_Array *makeArray(int length)
{
Value_Array *a = IDRIS2_NEW_VALUE(Value_Array);
a->header.tag = ARRAY_TAG;
a->capacity = length;
a->arr = (Value **)malloc(sizeof(Value *) * length);
memset(a->arr, 0, sizeof(Value *) * length);
return a;
}
Value_World *makeWorld()
{
Value_World *retVal = IDRIS2_NEW_VALUE(Value_World);
retVal->header.tag = WORLD_TAG;
retVal->listIORefs = NULL;
return retVal;
}
Value *newReference(Value *source)
{
// note that we explicitly allow NULL as source (for erased arguments)
if (source)
{
source->header.refCounter++;
}
return source;
}
void removeReference(Value *elem)
{
if (!elem)
{
return;
}
// remove reference counter
elem->header.refCounter--;
if (elem->header.refCounter == 0)
// recursively remove all references to all children
{
switch (elem->header.tag)
{
case BITS8_TAG:
case BITS16_TAG:
case BITS32_TAG:
case BITS64_TAG:
case INT8_TAG:
case INT16_TAG:
case INT32_TAG:
case INT64_TAG:
/* nothing to delete, added for sake of completeness */
break;
case INTEGER_TAG:
{
mpz_clear(((Value_Integer *)elem)->i);
break;
}
case DOUBLE_TAG:
/* nothing to delete, added for sake of completeness */
break;
case CHAR_TAG:
/* nothing to delete, added for sake of completeness */
break;
case STRING_TAG:
free(((Value_String *)elem)->str);
break;
case CLOSURE_TAG:
{
Value_Closure *cl = (Value_Closure *)elem;
Value_Arglist *al = cl->arglist;
removeReference((Value *)al);
break;
}
case COMPLETE_CLOSURE_TAG:
{
Value_Closure *cl = (Value_Closure *)elem;
Value_Arglist *al = cl->arglist;
removeReference((Value *)al);
break;
}
case ARGLIST_TAG:
{
Value_Arglist *al = (Value_Arglist *)elem;
for (int i = 0; i < al->filled; i++)
{
removeReference(al->args[i]);
}
free(al->args);
break;
}
case CONSTRUCTOR_TAG:
{
Value_Constructor *constr = (Value_Constructor *)elem;
for (int i = 0; i < constr->total; i++)
{
removeReference(constr->args[i]);
}
if (constr->name)
{
free(constr->name);
}
free(constr->args);
break;
}
case IOREF_TAG:
/* nothing to delete, added for sake of completeness */
break;
case BUFFER_TAG:
{
Value_Buffer *b = (Value_Buffer *)elem;
free(b->buffer);
break;
}
case ARRAY_TAG:
{
Value_Array *a = (Value_Array *)elem;
for (int i = 0; i < a->capacity; i++)
{
removeReference(a->arr[i]);
}
free(a->arr);
break;
}
case POINTER_TAG:
/* nothing to delete, added for sake of completeness */
break;
case GC_POINTER_TAG:
{
/* maybe here we need to invoke onCollectAny */
Value_GCPointer *vPtr = (Value_GCPointer *)elem;
Value *closure1 = apply_closure((Value *)vPtr->onCollectFct, (Value *)vPtr->p);
apply_closure(closure1, NULL);
removeReference(closure1);
removeReference((Value *)vPtr->onCollectFct);
removeReference((Value *)vPtr->p);
break;
}
case WORLD_TAG:
{
Value_World *w = (Value_World *)elem;
if (w->listIORefs)
{
for (int i = 0; i < w->listIORefs->filled; i++)
{
removeReference(w->listIORefs->refs[i]);
}
free(w->listIORefs->refs);
free(w->listIORefs);
}
}
default:
break;
}
// finally, free element
free(elem);
}
}