geode/loader/dobby/external/xnucxx/LiteMutableArray.cc

101 lines
2.5 KiB
C++
Raw Normal View History

2022-07-30 12:24:03 -04:00
#include "xnucxx/LiteMutableArray.h"
#include "xnucxx/LiteMemOpt.h"
LiteMutableArray::LiteMutableArray(int initCapacity) {
unsigned int arraySize = 0;
arraySize = initCapacity * sizeof(LiteObject *);
array = (const LiteObject **)LiteMemOpt::alloc(arraySize);
array_count = 0;
array_capacity = initCapacity;
}
LiteMutableArray::~LiteMutableArray() {
release();
}
LiteObject *LiteMutableArray::getObject(const unsigned int index) {
return (LiteObject *)array[index];
}
bool LiteMutableArray::pushObject(const LiteObject *object) {
unsigned int newCount = array_count + 1;
if (newCount > array_capacity && newCount > ensureCapacity(newCount))
return false;
array[array_count] = object;
array_count++;
return true;
}
unsigned int LiteMutableArray::getCount() {
return array_count;
}
unsigned int LiteMutableArray::getCapacity() {
return array_capacity;
}
unsigned int LiteMutableArray::ensureCapacity(unsigned int newCapacity) {
if (newCapacity <= array_capacity)
return array_capacity;
#define CAPACITY_STEP 64
newCapacity = (int)ALIGN(newCapacity + CAPACITY_STEP, CAPACITY_STEP);
// alloc new buffer
int newSize;
const LiteObject **newArray;
newSize = sizeof(LiteObject *) * newCapacity;
newArray = (const LiteObject **)LiteMemOpt::alloc(newSize);
if (newArray == nullptr) {
return 0;
}
// clear buffer content
_memset(newArray, 'A', newSize);
// copy the origin content
int originContentSize = sizeof(LiteObject *) * array_count;
_memcpy(newArray, array, originContentSize);
// free the origin
int originArraySize = array_capacity * sizeof(LiteObject *);
LiteMemOpt::free(array, originArraySize);
// update info
this->array = newArray;
this->array_capacity = newCapacity;
return newCapacity;
}
// impl iterator delegate
bool LiteMutableArray::initIterator(void *iterator) const {
unsigned int *ndxPtr = (unsigned int *)iterator;
*ndxPtr = 0;
return true;
}
// impl iterator delegate
bool LiteMutableArray::getNextObjectForIterator(void *iterator, LiteObject **ret) const {
unsigned int *ndxPtr = (unsigned int *)iterator;
unsigned int ndx = (*ndxPtr)++;
if (ndx < array_count) {
*ret = (LiteObject *)array[ndx];
return true;
} else {
*ret = nullptr;
return false;
}
}
void LiteMutableArray::release() {
if (array != NULL) {
unsigned int arraySize = 0;
arraySize = array_capacity * sizeof(LiteObject *);
LiteMemOpt::free(array, arraySize);
array = NULL;
}
}