# Copyright (c) 2021 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 ...fluid.initializer import Initializer from ...fluid.data_feeder import check_variable_and_dtype from ...fluid import framework from ...tensor import diag, transpose, sign, qr, reshape from paddle.utils import unique_name __all__ = [] class Orthogonal(Initializer): """The orthogonal initializer. The initialized tensor is (semi) orthogonal. It's only applied to Tensor whose dimension is greater than or equal to 2. For the Tensor whose dimension is greater than 2, the 0 dimension is seen as ``rows`` , and the >=1 dimension are flattened as ``cols`` . Which can be describe as: .. code-block:: text rows = shape[0] cols = shape[1]·shape[2]···shape[N] if rows < cols: The rows are orthogonal vectors elif rows > cols: The columns are orthogonal vectors else rows = cols: Both rows and columns are orthogonal vectors Args: gain(float, optional): The multiplication coefficient for initialized tensor. Default: 1.0. name(str, optional): The default value is None. Normally there is no need for user to set this property. For more information, please refer to :ref:`api_guide_Name`. Returns: A parameter initialized by orthogonal initialized. Examples: .. code-block:: python import paddle weight_attr = paddle.ParamAttr(initializer=paddle.nn.initializer.Orthogonal()) linear = paddle.nn.Linear(10, 15, weight_attr=weight_attr) # linear.weight: X * X' = I linear = paddle.nn.Linear(15, 10, weight_attr=weight_attr) # linear.weight: X' * X = I """ def __init__(self, gain=1.0, name=None): assert gain is not None, 'gain should not be None' super(Orthogonal, self).__init__() self._gain = gain def __call__(self, var, block=None): """Initialize the input tensor with orthogonal initializer. Args: var(Tensor): Tensor that needs to be initialized. block(Block, optional): The block in which initialization ops should be added. Used in static graph only, default None. Returns: The last initialization op, it contain 8 ops in orthogonal initializer. """ block = self._check_block(block) assert isinstance(var, framework.Parameter) assert isinstance(block, framework.Block) # 'qr' op only support float32/float64 now check_variable_and_dtype(var, "Out", ["float32", "float64"], "Orthogonal") self._seed = block.program.random_seed shape = var.shape assert len( shape ) >= 2, "Only Tensor with 2 or more dimensions can be initialized by Orthogonal" row = shape[0] col = 1 for i in shape[1:]: col *= i flatten_shape = [max(row, col), min(row, col)] normal_var = block.create_var( name=unique_name.generate('.'.join(['gaussian_random', 'tmp'])), dtype=var.dtype, persistable=False, stop_gradient=True) block.append_op( type='gaussian_random', inputs={}, outputs={'Out': normal_var}, attrs={ 'mean': 0.0, 'std': 1.0, 'shape': flatten_shape, 'seed': self._seed, 'dtype': var.dtype }, stop_gradient=True) q = block.create_var( name=unique_name.generate('.'.join(['qr', 'q', 'tmp'])), dtype=normal_var.dtype, persistable=False, stop_gradient=True) r = block.create_var( name=unique_name.generate('.'.join(['qr', 'r', 'tmp'])), dtype=normal_var.dtype, persistable=False, stop_gradient=True) block.append_op( type='qr', inputs={'X': [normal_var]}, outputs={ 'Q': q, 'R': r, }, attrs={'mode': 'reduced'}, stop_gradient=True) r_diag = block.create_var( name=unique_name.generate('.'.join(['diag', 'tmp'])), dtype=r.dtype, persistable=False, stop_gradient=True) block.append_op( type='diag_v2', inputs={'X': r}, outputs={'Out': r_diag}, attrs={'offset': 0, 'padding_value': 0}, stop_gradient=True) r_sign = r_diag block.append_op( type='sign', inputs={'X': [r_diag]}, outputs={'Out': r_sign}, stop_gradient=True) block.append_op( type='elementwise_mul', inputs={'X': q, 'Y': r_sign}, outputs={'Out': q}, attrs={}, stop_gradient=True) x_shape = block.create_var( name=unique_name.generate('.'.join(['transpose', 'shape', 'tmp'])), dtype=q.dtype, persistable=False, stop_gradient=True) if row < col: q_transpose = block.create_var( name=unique_name.generate('.'.join(['transpose', 'tmp'])), dtype=q.dtype, persistable=False, stop_gradient=True) block.append_op( type='transpose2', inputs={'X': q}, outputs={'Out': q_transpose, 'XShape': x_shape}, attrs={'axis': [1, 0]}, stop_gradient=True) q = q_transpose block.append_op( type='reshape2', inputs={'X': q}, outputs={'Out': q, "XShape": x_shape}, attrs={'shape': var.shape}, stop_gradient=True) op = block.append_op( type='scale', inputs={'X': q}, outputs={'Out': var}, attrs={'scale': self._gain, 'bias': 0.0}) return op