# Copyright (c) 2022 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 .common import DistributedOperatorImplContainer from .common import DistributedOperatorImpl from .common import register_distributed_operator_impl_container from .common import register_distributed_operator_impl from ..utils import is_dim_shard from ..utils import compute_compatible_dim_mapping from ..utils import compute_compatible_and_update_dim_mapping from .dist_default import DistributedDefaultImpl0 class DistributedSlice(DistributedOperatorImplContainer): def __init__(self, op_type): super(DistributedSlice, self).__init__(op_type) register_distributed_operator_impl_container(DistributedSlice("slice")) class DistributedSliceImpl(DistributedOperatorImpl): def __init__(self, name): super(DistributedSliceImpl, self).__init__(name) self._forward_implemented = True self._backward_implemented = True def is_input_compatible(self, dist_op): op_desc = dist_op.serial_op.desc op_dist_attr = dist_op.dist_attr in_name = op_desc.input('Input')[0] axes = op_desc.attr('axes') in_dims_mapping = op_dist_attr.get_input_dims_mapping(in_name) for axis in axes: if is_dim_shard(in_dims_mapping[axis]): return False return True def is_output_compatible(self, dist_op): op_desc = dist_op.serial_op.desc op_dist_attr = dist_op.dist_attr in_name = op_desc.input('Input')[0] out_name = op_desc.output('Out')[0] axes = op_desc.attr('axes') decrease_axis = op_desc.attr('decrease_axis') in_dims_mapping = op_dist_attr.get_input_dims_mapping(in_name) out_dims_mapping = op_dist_attr.get_output_dims_mapping(out_name) ref_indices = [] for i in range(len(in_dims_mapping)): if i not in decrease_axis: ref_indices.append(i) if ref_indices == []: assert len(out_dims_mapping) == 1 if is_dim_shard(out_dims_mapping[0]): return False else: for i in range(len(out_dims_mapping)): ref_index = ref_indices[i] if ref_index in axes and is_dim_shard(out_dims_mapping[i]): return False return True def is_compatible(self, dist_op): if (not self.is_input_compatible(dist_op)) or \ (not self.is_output_compatible(dist_op)): return False op_desc = dist_op.serial_op.desc op_dist_attr = dist_op.dist_attr in_name = op_desc.input('Input')[0] out_name = op_desc.output('Out')[0] decrease_axis = op_desc.attr('decrease_axis') in_dims_mapping = op_dist_attr.get_input_dims_mapping(in_name) out_dims_mapping = op_dist_attr.get_output_dims_mapping(out_name) if len(in_dims_mapping) - len(decrease_axis) != 0 and len( out_dims_mapping) != len(in_dims_mapping) - len(decrease_axis): return False new_out_dims_mapping = [] for i in range(len(in_dims_mapping)): if i not in decrease_axis: new_out_dims_mapping.append(in_dims_mapping[i]) if new_out_dims_mapping == []: new_out_dims_mapping = [-1] if new_out_dims_mapping != out_dims_mapping: return False return True def is_auto_compatible(self, dist_op): if (not self.is_input_compatible(dist_op)) or \ (not self.is_output_compatible(dist_op)) or \ (not self.is_compatible(dist_op)): return False return True def update_dims_mapping(self, dist_op): changed = False op_desc = dist_op.serial_op.desc op_dist_attr = dist_op.dist_attr in_name = op_desc.input('Input')[0] out_name = op_desc.output('Out')[0] decrease_axis = op_desc.attr('decrease_axis') in_dims_mapping = op_dist_attr.get_input_dims_mapping(in_name) out_dims_mapping = op_dist_attr.get_output_dims_mapping(out_name) ref_dims_mapping = [] ref_indices = [] for i in range(len(in_dims_mapping)): if i not in decrease_axis: ref_dims_mapping.append(in_dims_mapping[i]) ref_indices.append(i) if ref_dims_mapping == []: ref_dims_mapping = [-1] assert len(ref_dims_mapping) == len(out_dims_mapping) assert ref_dims_mapping[0] == out_dims_mapping[0] changed = False else: assert len(ref_dims_mapping) == len(out_dims_mapping) for i in range(len(out_dims_mapping)): compatible_dim_mapping = compute_compatible_dim_mapping( [out_dims_mapping[i], ref_dims_mapping[i]]) if compatible_dim_mapping is None: continue if ref_dims_mapping[i] != compatible_dim_mapping: in_dims_mapping[ref_indices[i]] = compatible_dim_mapping changed = True if out_dims_mapping[i] != compatible_dim_mapping: out_dims_mapping[i] = compatible_dim_mapping changed = True return changed @staticmethod def forward(ctx, *args, **kwargs): DistributedDefaultImpl0.forward(ctx, *args, **kwargs) @staticmethod def backward(ctx, *args, **kwargs): DistributedDefaultImpl0.backward(ctx, *args, **kwargs) register_distributed_operator_impl("slice", DistributedSliceImpl("decrease_in_axis"))