import numpy as np class Dataset(object): def __init__(self, data_map, deterministic=False, shuffle=True): self.data_map = data_map self.deterministic = deterministic self.enable_shuffle = shuffle self.n = next(iter(data_map.values())).shape[0] self._next_id = 0 self.shuffle() def shuffle(self): if self.deterministic: return perm = np.arange(self.n) np.random.shuffle(perm) for key in self.data_map: self.data_map[key] = self.data_map[key][perm] self._next_id = 0 def next_batch(self, batch_size): if self._next_id >= self.n and self.enable_shuffle: self.shuffle() cur_id = self._next_id cur_batch_size = min(batch_size, self.n - self._next_id) self._next_id += cur_batch_size data_map = dict() for key in self.data_map: data_map[key] = self.data_map[key][cur_id:cur_id+cur_batch_size] return data_map def iterate_once(self, batch_size): if self.enable_shuffle: self.shuffle() while self._next_id <= self.n - batch_size: yield self.next_batch(batch_size) self._next_id = 0 def subset(self, num_elements, deterministic=True): data_map = dict() for key in self.data_map: data_map[key] = self.data_map[key][:num_elements] return Dataset(data_map, deterministic) def iterbatches(arrays, *, num_batches=None, batch_size=None, shuffle=True, include_final_partial_batch=True): assert (num_batches is None) != (batch_size is None), 'Provide num_batches or batch_size, but not both' arrays = tuple(map(np.asarray, arrays)) n = arrays[0].shape[0] assert all(a.shape[0] == n for a in arrays[1:]) inds = np.arange(n) if shuffle: np.random.shuffle(inds) sections = np.arange(0, n, batch_size)[1:] if num_batches is None else num_batches for batch_inds in np.array_split(inds, sections): if include_final_partial_batch or len(batch_inds) == batch_size: yield tuple(a[batch_inds] for a in arrays)