Lines Matching refs:cluster_size
97 self.cluster_size = 1 << cluster_bits
111 self.cluster_size)
159 free_space = self.cluster_size - self.ext_offset - \
168 self.cluster_size - len(backing_file_name)
189 (self.cluster_size - 1)) - \
221 (self.cluster_size - 1)) - \
272 offset = l2_cluster * self.cluster_size
273 l2_size = self.cluster_size // UINT64_S
275 cluster_descriptor = host * self.cluster_size
285 l2_size = self.cluster_size // UINT64_S
288 entry_val = (1 << 63) + l2_cluster * self.cluster_size
295 l1_offset = random.randint(1, 3) * self.cluster_size
301 self.cluster_size),
304 l_size = self.cluster_size // UINT64_S
310 l1_offset = l1_start * self.cluster_size
333 float(self.cluster_size**2)))
361 size = self.cluster_size // UINT64_S
402 return ['>Q', offset, block_cluster * self.cluster_size,
407 entry_size = self.cluster_size // block_size
408 offset = block_cluster * self.cluster_size
417 block_size = self.cluster_size * 8 // refcount_bits
442 table_offset = min(table_clusters) * self.cluster_size
511 image_file.seek(cluster * self.cluster_size)
512 image_file.write(urandom(self.cluster_size))
517 rounded = (size + self.cluster_size - 1) & ~(self.cluster_size - 1)
529 cluster_size = 1 << cluster_bits
530 img_size = random.randrange(0, MAX_IMAGE_SIZE + 1, cluster_size)
586 def _alloc_data(img_size, cluster_size): argument
589 num_of_cls = img_size // cluster_size
597 ids.add(x.offset // self.cluster_size)