Source code for nnabla.experimental.graph_converters.identity

import nnabla as nn
import nnabla.functions as F
import nnabla.parametric_functions as PF

from .helpers import GraphInfo

[docs]class IdentityConverter(object): """ All functions are replaced with the same `new` function. Args: black_list (list): Black list of the function list. params (:obj:`OrderedDict`): Result of nn.get_parameters(). name (:obj:`str`): Prefix of the parameter scope. """ def __init__(self, black_list=[], params=None, name="identity"): self.graph_info = None self.entry_variables = None self.black_list = black_list self.params = params if params is not None else nn.get_parameters( grad_only=False) = name self.end_variable = None self.outputs = [] # output of ref graph to output of new graph (TODO: change name) self.input_map = {}
[docs] def convert(self, vroot, entry_variables): """ All functions are replaced with the same `new` function. Args: vroot (:obj:`Variable`): NNabla Variable entry_variables (:obj:`Variable`): Entry variable from which the conversion starts. """ self.graph_info = GraphInfo(vroot) self.entry_variables = entry_variables with nn.parameter_scope( # Function loop in the forward order for func in self.graph_info.funcs: o = self._identity_conversion(func) self.end_variable = o return self.end_variable
def _call_function(self, type_name, inputs, args): import nnabla.function_bases as FB function_expr = "FB.F.{type_name}(nn.{ctx}, **{args})".format( type_name=type_name, ctx=nn.get_current_context(), args=args) function = eval(function_expr) o = function(*inputs) return o def _identity_conversion(self, func): import nnabla.function_bases as FB inputs = [] # Inputs conversion for i in func.inputs: if i in self.entry_variables: # entry input given by user idx = self.entry_variables.index(i) inputs.append(self.entry_variables[idx]) elif i in self.input_map: # new input inputs.append(self.input_map[i]) elif i in self.params.values(): # parameter input idx = list(self.params.values()).index(i) name = list(self.params.keys())[idx] i = nn.parameter.get_parameter_or_create(name, i.shape, i.d, i.need_grad) inputs.append(i) else: # old inputs shared by the reference graph inputs.append(i) # Function Call o = self._call_function(, inputs, # Map output of ref graph to output of new graph x = func.outputs[0] self.input_map[x] = o # Store output (just in case) self.outputs.append(o) return o