kuroko/object.c

157 lines
4.5 KiB
C
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#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include "memory.h"
#include "object.h"
#include "value.h"
#include "vm.h"
#include "table.h"
#define ALLOCATE_OBJECT(type, objectType) \
(type*)allocateObject(sizeof(type), objectType)
static KrkObj * allocateObject(size_t size, ObjType type) {
KrkObj * object = (KrkObj*)krk_reallocate(NULL, 0, size);
object->type = type;
object->isMarked = 0;
object->next = vm.objects;
vm.objects = object;
return object;
}
static KrkString * allocateString(char * chars, size_t length, uint32_t hash) {
KrkString * string = ALLOCATE_OBJECT(KrkString, OBJ_STRING);
string->length = length;
string->chars = chars;
string->hash = hash;
krk_push(OBJECT_VAL(string));
krk_tableSet(&vm.strings, OBJECT_VAL(string), NONE_VAL());
krk_pop();
return string;
}
static uint32_t hashString(const char * key, size_t length) {
uint32_t hash = 0;
/* This is the so-called "sdbm" hash. It comes from a piece of
* public domain code from a clone of ndbm. */
for (size_t i = 0; i < length; ++i) {
hash = (int)key[i] + (hash << 6) + (hash << 16) - hash;
}
return hash;
}
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KrkString * krk_takeString(char * chars, size_t length) {
uint32_t hash = hashString(chars, length);
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KrkString * interned = krk_tableFindString(&vm.strings, chars, length, hash);
if (interned != NULL) {
FREE_ARRAY(char, chars, length + 1);
return interned;
}
return allocateString(chars, length, hash);
}
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KrkString * krk_copyString(const char * chars, size_t length) {
uint32_t hash = hashString(chars, length);
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KrkString * interned = krk_tableFindString(&vm.strings, chars, length, hash);
if (interned) return interned;
char * heapChars = ALLOCATE(char, length + 1);
memcpy(heapChars, chars, length);
heapChars[length] = '\0';
return allocateString(heapChars, length, hash);
}
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KrkFunction * krk_newFunction() {
KrkFunction * function = ALLOCATE_OBJECT(KrkFunction, OBJ_FUNCTION);
function->requiredArgs = 0;
function->keywordArgs = 0;
function->upvalueCount = 0;
function->name = NULL;
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function->docstring = NULL;
function->collectsArguments = 0;
function->collectsKeywords = 0;
function->localNameCount = 0;
function->localNames = NULL;
function->globalsContext = NULL;
krk_initValueArray(&function->requiredArgNames);
krk_initValueArray(&function->keywordArgNames);
krk_initChunk(&function->chunk);
return function;
}
KrkNative * krk_newNative(NativeFn function, const char * name, int type) {
KrkNative * native = ALLOCATE_OBJECT(KrkNative, OBJ_NATIVE);
native->function = function;
native->isMethod = type;
native->name = name;
return native;
}
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KrkClosure * krk_newClosure(KrkFunction * function) {
KrkUpvalue ** upvalues = ALLOCATE(KrkUpvalue*, function->upvalueCount);
for (size_t i = 0; i < function->upvalueCount; ++i) {
upvalues[i] = NULL;
}
KrkClosure * closure = ALLOCATE_OBJECT(KrkClosure, OBJ_CLOSURE);
closure->function = function;
closure->upvalues = upvalues;
closure->upvalueCount = function->upvalueCount;
return closure;
}
KrkUpvalue * krk_newUpvalue(int slot) {
KrkUpvalue * upvalue = ALLOCATE_OBJECT(KrkUpvalue, OBJ_UPVALUE);
upvalue->location = slot;
upvalue->next = NULL;
upvalue->closed = NONE_VAL();
return upvalue;
}
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KrkClass * krk_newClass(KrkString * name) {
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KrkClass * _class = ALLOCATE_OBJECT(KrkClass, OBJ_CLASS);
_class->name = name;
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_class->filename = NULL;
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_class->docstring = NULL;
_class->base = NULL;
krk_initTable(&_class->methods);
krk_initTable(&_class->fields);
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_class->_getter = NULL;
_class->_setter = NULL;
_class->_slicer = NULL;
_class->_reprer = NULL;
_class->_tostr = NULL;
_class->_call = NULL;
_class->_init = NULL;
_class->_eq = NULL;
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return _class;
}
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KrkInstance * krk_newInstance(KrkClass * _class) {
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KrkInstance * instance = ALLOCATE_OBJECT(KrkInstance, OBJ_INSTANCE);
instance->_class = _class;
krk_initTable(&instance->fields);
krk_tableAddAll(&_class->fields, &instance->fields);
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instance->_internal = NULL; /* To be used by C-defined types to track internal objects. */
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return instance;
}
KrkBoundMethod * krk_newBoundMethod(KrkValue receiver, KrkObj * method) {
KrkBoundMethod * bound = ALLOCATE_OBJECT(KrkBoundMethod, OBJ_BOUND_METHOD);
bound->receiver = receiver;
bound->method = method;
return bound;
}
KrkTuple * krk_newTuple(size_t length) {
KrkTuple * tuple = ALLOCATE_OBJECT(KrkTuple, OBJ_TUPLE);
tuple->inrepr = 0;
krk_initValueArray(&tuple->values);
krk_push(OBJECT_VAL(tuple));
tuple->values.capacity = length;
tuple->values.values = GROW_ARRAY(KrkValue,NULL,0,length);
krk_pop();
return tuple;
}