# Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from . import core import numpy as np __all__ = ['create_lod_tensor', 'create_random_int_lodtensor'] def create_lod_tensor(data, recursive_seq_lens, place): """ Create a lod tensor from a numpy array, a list, or an existing lod tensor. Create a lod tensor by doing the following: 1. Check that the length-based level of detail (LoD) also known as recursive_sequence_lengths of the input is valid. 2. Convert recursive_sequence_lengths to a offset-based LoD. 3. Copy the data from a numpy array, a list or a existing lod tensor to CPU or GPU device (based on input place). 4. Set the level of detail (LoD) using the offset-based LoD. Examples: Suppose we want LoDTensor to hold data for sequences of word, where each word is represented by an integer. If we want to create a LoDTensor to represent two sentences, one of 2 words, and one of 3 words. Then :code:`data` can be a numpy array of integers with shape (5, 1). :code:`recursive_seq_lens` will be [[2, 3]], indicating the length(# of words) in each sentence. This length-based :code:`recursive_seq_lens` [[2, 3]] will be converted to offset-based LoD [[0, 2, 5]] inside the function call. Please reference :ref:`api_guide_low_level_lod_tensor` for more details regarding LoD. Args: data(numpy.ndarray|list|LoDTensor): a numpy array or a LoDTensor or a list holding the data to be copied. recursive_seq_lens(list): a list of lists indicating the length-based level of detail info specified by the user. place(Place): CPU or GPU place indicating where the data in the new LoDTensor will be stored. Returns: A fluid LoDTensor object with tensor data and recursive_seq_lens info. """ if isinstance(data, core.LoDTensor): return create_lod_tensor(np.array(data), recursive_seq_lens, place) elif isinstance(data, list): # When input data is a list, it only deal with the case where the base element # is an index of shape [1] and dtype int64 (e.g., word id). Hence, the generated # LoDTensor will be of shape [n, 1] and dtype int64, where `n` is the total number # of words or other indexes in the sequence. new_recursive_seq_lens = [] for seq in data: new_recursive_seq_lens.append(len(seq)) assert [ new_recursive_seq_lens ] == recursive_seq_lens, "data and recursive_seq_lens do not match" flattened_data = np.concatenate(data, axis=0).astype("int64") flattened_data = flattened_data.reshape([len(flattened_data), 1]) return create_lod_tensor(flattened_data, recursive_seq_lens, place) elif isinstance(data, np.ndarray): tensor = core.LoDTensor() tensor.set(data, place) tensor.set_recursive_sequence_lengths(recursive_seq_lens) assert tensor.has_valid_recursive_sequence_lengths( ), "the provided lod info is invalid" return tensor else: raise TypeError( "data should be either a LoDTensor, a Numpy array or a list") def create_random_int_lodtensor(recursive_seq_lens, base_shape, place, low, high): """ Create a LoDTensor containing random integers. This function is frequently used in the book examples. So we revised it based on the new create_lod_tensor API and put it here in the lod_tensor module to simplify the code. The function does the following: 1. Calculate the overall shape of the LoDTensor based on the length-based :code:`recursive_seq_lens` input and the shape of the basic element in :code:`base_shape`. 2. Create a numpy array of this shape. 3. Create the LoDTensor using create_lod_tensor API. Suppose we want LoDTensor to hold data for sequences of word, where each word is represented by an integer. If we want to create a LoDTensor to represent two sentences, one of 2 words, and one of 3 words. Then 'base_shape' is [1], input length-based 'recursive_seq_lens' is [[2, 3]]. Then the overall shape of the LoDTensor would be [5, 1], holding 5 words for two sentences. Args: recursive_seq_lens(list): a list of lists indicating the length-based level of detail info specified by the user. base_shape(list): the shape of the basic element to be held by the LoDTensor. place(Place): CPU or GPU place indicating where the data in the new LoDTensor will be stored. low(int): the lower bound of the random integers. high(int): the upper bound of the random integers. Returns: A fluid LoDTensor object with tensor data and recursive_seq_lens info. """ assert isinstance(base_shape, list), "base_shape should be a list" # append the total number of basic elements to the front of its shape overall_shape = [sum(recursive_seq_lens[-1])] + base_shape # the range of integer data elements is [low, high] data = np.random.random_integers(low, high, overall_shape).astype("int64") return create_lod_tensor(data, recursive_seq_lens, place)