Resize
virtual status_t Resize(KPartition* partition, off_t size,
virtual status_t Resize(KPartition* partition, off_t size,
virtual status_t Resize(KPartition* partition, off_t size,
status_t Resize(size_t bitCount);
virtual status_t Resize(off_t newSize, int priority);
virtual status_t Resize(off_t size);
status_t Resize(off_t size);
bool Resize(void* allocation, size_t size, bool force = false,
res = fAllocatedDescs.Resize(fDescCount);
Resize(Inode* inode, off_t oldSize, off_t newSize, bool trim)
T(Resize(this, oldSize, size, false));
T(Resize(this, max_c(Node().data.MaxDirectRange(),
status_t Resize(off_t size, disk_job_id job);
return resizer.Resize(size, -1);
status = fDirectory->Resize(transaction, fNumBlocks * fBlockSize);
status_t status = Resize(transaction, end);
status_t status = Resize(transaction, blockSize);
status = inode->Resize(transaction, 0);
status_t Resize(Transaction& transaction, off_t size);
status_t status = inode->Resize(transaction, 0);
status_t status = inode->Resize(transaction, 0);
status_t status = inode->Resize(transaction, stat->st_size);
status_t error = DataContainer::Resize(newSize);
status_t error = fCache->Resize(newSize, VM_PRIORITY_USER);
error = fCache->Resize(newSize, VM_PRIORITY_USER);
error = Resize(offset + size);
status_t Resize(off_t newSize);
error = DataContainer::Resize(newSize);
fImageView->Resize((int32)r.Width(), (int32)r.Height());
void Resize(int32 width, int32 height);
status = partition->Resize(validatedSize);
error = fDelegate->Resize(contentSize);
error = fDelegate->Resize(contentSize);
return fPartitionHandle->Resize(size);
status_t Resize(off_t size);
status_t status = cache->Resize(newSize, VM_PRIORITY_USER);
error = child->DiskSystem()->Resize(child, contentSize, DUMMY_JOB_ID);
error = child->DiskSystem()->Resize(child, contentSize, DUMMY_JOB_ID);
hash_table.Resize(buffer, hashSize, true, &oldHash);
cache->hash_table.Resize(buffer, hashSize, true);
sAreaTable.Resize(sAreaTableBuffer, sizeof(sAreaTableBuffer), true);
Resize(bitCount);
} while (!sSwapHashTable.Resize(allocation, size));
if (fNoSwapPages->Resize(pageCount) != B_OK)
if (fNoSwapPages->Resize(PAGE_ALIGN(newSize) >> PAGE_SHIFT) != B_OK)
return VMCache::Resize(newSize, priority);
virtual status_t Resize(off_t newSize, int priority);
T(Resize(this, newSize));
Resize(VMCache* cache, off_t size)
error = cache->Resize(cache->virtual_base + firstNewSize, resizePriority);
status = cache->Resize(cache->virtual_base + newSize, priority);
status = cache->Resize(cache->virtual_base + newSize, priority);
cache->Resize(cache->virtual_base + oldSize, priority);
status = cache->Resize(area->cache_offset + area->Size(), resizePriority);
status = cache->Resize(cache->virtual_base + area->Size(), resizePriority);
error = secondCache->Resize(secondCache->virtual_base + secondSize, resizePriority);
fWaveView->waves[0].Resize(freq);
fWaveView->waves[1].Resize(irate);
fWaveView->waves[2].Resize(orate);
{ Resize(1); step = 1; }
status = partition->Resize(1024 * 200);
error = Resize(0, false, transaction);
error = Resize((uint64)pos + size, false, transaction);
virtual status_t Resize(uint64 newSize, bool fillWithZeroes,
virtual status_t Resize(uint64 newSize, bool fillWithZeroes,
error = node->Resize(st->st_size, true, transaction);
error = node->Resize(0, false, transaction);
bitmap.Resize(20);
bitmap.Resize(200);
bool Resize(void* allocation, size_t size, bool force = false,