# Copyright (c) 2016 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. import paddle.trainer.PyDataProvider2 as dp2 import collections import swig_paddle import numpy __all__ = ['DataProviderConverter'] class IScanner(object): def __init__(self, input_type, pos): self.input_type = input_type assert isinstance(self.input_type, dp2.InputType) self.pos = pos def scan(self, dat): pass def finish_scan(self, argument): pass class DenseScanner(IScanner): """ :type __mat__: numpy.ndarray """ def __init__(self, input_type, pos): IScanner.__init__(self, input_type, pos) self.__mat__ = None def scan(self, dat): if self.__mat__ is None: self.__mat__ = numpy.array([dat], dtype='float32') else: self.__mat__ = numpy.append(self.__mat__, [dat], axis=0) def finish_scan(self, argument): assert isinstance(argument, swig_paddle.Arguments) assert isinstance(self.input_type, dp2.InputType) if self.__mat__.dtype != numpy.float32: self.__mat__ = self.__mat__.astype(numpy.float32) m = swig_paddle.Matrix.createDenseFromNumpy(self.__mat__, True, False) argument.setSlotValue(self.pos, m) class SparseBinaryScanner(IScanner): def __init__(self, input_type, pos): IScanner.__init__(self, input_type, pos) self.__rows__ = [0] self.__cols__ = [] self.__height__ = 0 self.__nnz__ = 0 self.__value__ = [] def scan(self, dat): self.extend_cols(dat) self.__rows__.append(len(self.__cols__)) self.__height__ += 1 def extend_cols(self, dat): self.__cols__.extend(dat) def finish_scan(self, argument): assert isinstance(argument, swig_paddle.Arguments) assert isinstance(self.input_type, dp2.InputType) m = swig_paddle.Matrix.createSparse(self.__height__, self.input_type.dim, len(self.__cols__), len(self.__value__) == 0) assert isinstance(m, swig_paddle.Matrix) m.sparseCopyFrom(self.__rows__, self.__cols__, self.__value__) argument.setSlotValue(self.pos, m) class SparseFloatScanner(SparseBinaryScanner): def __init__(self, input_type, pos): SparseBinaryScanner.__init__(self, input_type, pos) def extend_cols(self, dat): self.__cols__.extend((x[0] for x in dat)) self.__value__.extend((x[1] for x in dat)) class IndexScanner(IScanner): def __init__(self, input_type, pos): IScanner.__init__(self, input_type, pos) self.__ids__ = [] def scan(self, dat): self.__ids__.append(dat) def finish_scan(self, argument): ids = swig_paddle.IVector.create(self.__ids__) assert isinstance(argument, swig_paddle.Arguments) argument.setSlotIds(self.pos, ids) class SequenceScanner(IScanner): def __init__(self, input_type, pos, inner_scanner, setter): IScanner.__init__(self, input_type, pos) self.__seq__ = [0] self.__inner_scanner__ = inner_scanner self.__setter__ = setter def scan(self, dat): self.__seq__.append(self.__seq__[-1] + self.get_size(dat)) for each in dat: self.__inner_scanner__.scan(each) def finish_scan(self, argument): seq = swig_paddle.IVector.create(self.__seq__, False) self.__setter__(argument, self.pos, seq) self.__inner_scanner__.finish_scan(argument) def get_size(self, dat): if isinstance(self.__inner_scanner__, SequenceScanner): return sum(self.__inner_scanner__.get_size(item) for item in dat) else: return len(dat) class DataProviderConverter(object): def __init__(self, input_types): self.input_types = input_types assert isinstance(self.input_types, collections.Sequence) for each in self.input_types: assert isinstance(each, dp2.InputType) def convert(self, dat, argument=None): if argument is None: argument = swig_paddle.Arguments.createArguments(0) assert isinstance(argument, swig_paddle.Arguments) argument.resize(len(self.input_types)) scanners = [ DataProviderConverter.create_scanner(i, each_type) for i, each_type in enumerate(self.input_types) ] for each_sample in dat: for each_step, scanner in zip(each_sample, scanners): scanner.scan(each_step) for scanner in scanners: scanner.finish_scan(argument) return argument def __call__(self, dat, argument=None): return self.convert(dat, argument) @staticmethod def create_scanner(i, each): assert isinstance(each, dp2.InputType) retv = None if each.type == dp2.DataType.Dense: retv = DenseScanner(each, i) elif each.type == dp2.DataType.Index: retv = IndexScanner(each, i) elif each.type == dp2.DataType.SparseNonValue: retv = SparseBinaryScanner(each, i) elif each.type == dp2.DataType.SparseValue: retv = SparseFloatScanner(each, i) assert retv is not None if each.seq_type == dp2.SequenceType.SUB_SEQUENCE: retv = SequenceScanner( each, i, retv, lambda a, p, seq: a.setSlotSubSequenceStartPositions(p, seq)) if each.seq_type in [ dp2.SequenceType.SUB_SEQUENCE, dp2.SequenceType.SEQUENCE ]: retv = SequenceScanner( each, i, retv, lambda a, p, seq: a.setSlotSequenceStartPositions(p, seq)) return retv