def vcall(self, module: 'values.Field', graph: 'graphs.Graph', inst: 'values.Object', args: 'functions.FunctionArgInput', option: 'vevaluator.VEvalContext' = None, line=-1): funcArgs = self.args.merge_inputs(inst, args) if inst.in_container: raise Exception('Invalid operation') key_hashes = inst.get_value().internal_keys.keys() attributes = inst.get_value().internal_values vargs = [] vargs_ref = [] for hash in key_hashes: varg = attributes.get_attribute(hash) if varg.has_obj(): vargs.append(utils.try_get_obj(varg, 'dict_values', utils.LineProperty()).get_value()) vargs_ref.append(utils.try_get_obj(varg, 'dict_values', utils.LineProperty())) else: assert(False) node = nodes.NodeGenerate('List', vargs , line) graph.add_node(node) value = values.ListValue(vargs_ref) value.name = '@F.{}.{}'.format(line, self.name) node.set_outputs([value]) return value
def vcall(self, module: 'values.Field', graph: 'graphs.Graph', inst: 'values.Object', args: 'functions.FunctionArgInput', context: 'functions.VEvalContext' = None, line=-1): assert (inst is None) funcArgs = self.args.merge_inputs(inst, args) vargs = funcArgs.get_value().inputs value = values.ListValue() if isinstance(vargs[0], values.NoneValue): node = nodes.NodeGenerate('List', [], line) graph.add_node(node) else: node = nodes.NodeConvert('List', vargs[0], line) graph.add_node(node) if vargs[0].has_constant_value(): refs = [] for attr_or_ref in vargs[0].internal_value: refs.append( utils.try_get_obj(attr_or_ref, 'list', utils.LineProperty())) value.internal_value = refs value.name = '@F.{}.{}'.format(line, self.name) node.set_outputs([value]) return values.Object(value)
def vcall(self, module: 'values.Field', graph: 'graphs.Graph', inst: 'values.Object', args: 'functions.FunctionArgInput', context: 'functions.VEvalContext' = None, line=-1): if context._for_unroll: for ref in args.inputs: if not ref.get_value().has_constant_value(): assert False, 'Loop unrolling was requested for non-constant sequence at %s' % line refs = [] for num in range(*(ref.get_value().internal_value for ref in args.inputs)): refs.append(values.Object(values.NumberValue(num))) value = values.ListValue(refs) return values.Object(value) else: node = nodes.NodeGenerate('range', [v.get_value() for v in args.inputs], line) graph.add_node(node) value = values.RangeValue() value.name = '@F.{}.{}'.format(line, self.name) node.set_outputs([value]) return values.Object(value)
def generate_copied_value(value: 'values.Value'): assert(isinstance(value, values.Value)) if isinstance(value, values.NumberValue): copied = values.NumberValue(value.internal_value) copied.dtype = value.dtype return copied if isinstance(value, values.TensorValue): copied = values.TensorValue() copied.value = value.value copied.shape = value.shape copied.dtype = value.dtype return copied if isinstance(value, values.ListValue): copied = values.ListValue() copied.dtype = value.dtype copied.vtype = value.vtype if value.internal_value is not None: copied.internal_value = value.internal_value.copy() return copied if isinstance(value, values.NoneValue): copied = values.NoneValue() return copied if isinstance(value, values.BoolValue): copied = values.BoolValue(value.internal_value) return copied if isinstance(value, values.StrValue): copied = values.StrValue(value.internal_value) return copied if isinstance(value, values.RangeValue): copied = values.RangeValue() return copied if isinstance(value, values.TupleValue): if value.internal_value is not None: copied = values.TupleValue(value.internal_value.copy()) else: copied = values.TupleValue(value.internal_value) copied.dtype = value.dtype copied.vtype = value.vtype return copied if config.show_warnings: print('Unknown type {} is copied'.format(value)) return values.Value()
def vcall(self, module: 'values.Field', graph: 'graphs.Graph', inst: 'values.Object', args: 'functions.FunctionArgInput', option: 'vevaluator.VEvalContext' = None, line=-1): args = functions.FunctionArgInput() args.inputs.append(inst) args.keywords['self'] = inst value = values.ListValue(self.owner.children) return values.Object(value)
def vcall(self, module: 'Field', graph: 'Graph', inst: 'values.ValueRef', args: 'functions.FunctionArgInput', line=-1): assert(inst is None) funcArgs = self.args.merge_inputs(inst, args) vargs = funcArgs.get_value().inputs value = values.ListValue() if isinstance(vargs[0], values.NoneValue): node = nodes.NodeGenerate('List', [], line) graph.add_node(node) else: node = nodes.NodeConvert('List', vargs[0], line) graph.add_node(node) value.name = '@F.{}.{}'.format(line, self.name) node.set_outputs([value]) return values.ValueRef(value)
def veval_ast_list(astc: 'AstContext', local_field: 'values.Field', graph: 'Graph'): assert (isinstance(astc.nast, gast.gast.List)) ''' Ex. [],[x,y,z] TODO : Initializer ''' lineprop = utils.LineProperty(astc.lineno, astc.filename) elts = [] for elt in astc.nast.elts: elt_ = veval_ast(astc.c(elt), local_field, graph) elt_obj = try_get_ref(elt_, 'list', lineprop) elts.append(elt_obj) node = nodes.NodeGenerate('List', [elt.get_value() for elt in elts], lineprop) graph.add_node(node) value = values.ListValue(elts) node.set_outputs([value]) return values.ValueRef(value)
def veval_ast_listcomp(astc: 'AstContext', local_field: 'values.Field', graph: 'Graph'): ''' Ex. [x for x in xx] [elt for target in iter] ''' assert (isinstance(astc.nast, gast.gast.ListComp)) lineprop = utils.LineProperty(astc.lineno, astc.filename) listcomp_guid = str(utils.get_guid()) listcomp_id = 'listcomp_' + listcomp_guid body_id = 'listcomp_body_' + listcomp_guid internal_counter_id = '@internal/listcomp_counter_' + listcomp_guid internal_list_id = '@internal/listcomp_list_' + listcomp_guid internal_cond_id = '@internal/listcomp_cond_' + listcomp_guid generator = astc.nast.generators[0] iter_value = try_get_value( veval_ast(astc.c(generator.iter), local_field, graph), 'generator', lineprop) list_value = values.ListValue() list_obj = values.ValueRef(list_value) node_generate_list = nodes.NodeGenerate('List', [], lineprop) node_generate_list.set_outputs([list_value]) graph.add_node(node_generate_list) # body target_name = '' if isinstance(generator.target, gast.gast.Name): target_name = generator.target.id else: if config.show_warnings: print('This for is not supported. in L.{}'.format(astc.lineno)) return None counter_value = values.NumberValue(None) counter_value.dtype = np.array(0).dtype counter_value.name = internal_counter_id cond_value = values.BoolValue(None) cond_value.name = internal_cond_id # set values with internal name local_field.get_attribute(internal_list_id).revise(list_obj) values.push_history(listcomp_id) body_graph = Graph() body_graph.root_graph = graph.root_graph body_graph.name = 'Body_' + listcomp_guid node_forgen = nodes.NodeForGenerator(counter_value, iter_value) target_ref = iter_value.get_iterator() if target_ref is None: target_ref = values.ValueRef(values.UnknownValue()) if config.show_warnings: print('unknown iteratable type in L.{}'.format(lineprop)) target_value = target_ref.get_value() node_forgen.set_outputs([target_ref.get_value()]) local_field.get_attribute(target_name).revise(target_ref) body_graph.add_node(node_forgen) elt = veval_ast(astc.c(astc.nast.elt), local_field, body_graph) elt_obj = try_get_ref(elt, 'listcomp', lineprop) finput = functions.FunctionArgInput() finput.inputs.append(elt_obj) append_value = local_field.get_attribute(internal_list_id).get_ref( ).get_field().get_attribute('append').get_ref().get_value() append_value.func.vcall( None, body_graph, local_field.get_attribute(internal_list_id).get_ref(), finput, lineprop) value_inputs = values.get_inputs() value_outputs = values.get_outputs() values.pop_history() inputs = [] outputs = [] # default input for subgraph's input body_graph.add_input_value(counter_value) body_graph.add_input_value(cond_value) body_graph.add_input_value(iter_value) # default output for subgraph's output body_graph.add_output_value(cond_value) body_graph.add_output_value(iter_value) # default output outputs.append(functions.generate_value_with_same_type(iter_value)) # generate pairs value_pairs = {} for v in value_inputs: key = str(v.field.id) + '_' + v.name if not (key in value_pairs.keys()): value_pairs[key] = {} value_pairs[key]['field'] = v.field value_pairs[key]['name'] = v.name value_pairs[key]['input_value'] = v.input_value value_pairs[key]['input_body_value'] = v.value for v in value_outputs: key = str(v.field.id) + '_' + v.name if not (key in value_pairs.keys()): value_pairs[key] = {} value_pairs[key]['field'] = v.field value_pairs[key]['name'] = v.name value_pairs[key]['output_body_value'] = v.value value_pairs[key]['output_obj'] = v.obj # remove iterator removed_name = str(local_field.id) + '_' + target_value.name del value_pairs[removed_name] for k, v in value_pairs.items(): name = v['name'] field = v['field'] if 'input_body_value' in v: inputs.append(v['input_value']) body_graph.add_input_value(v['input_body_value']) else: temp_value1 = functions.generate_value_with_same_type( v['output_body_value']) temp_value2 = functions.generate_value_with_same_type( v['output_body_value']) inputs.append(temp_value1) body_graph.add_input_value(temp_value2) if 'output_body_value' in v: body_graph.add_output_value(v['output_body_value']) output_value = functions.generate_value_with_same_type( v['output_body_value']) outputs.append(output_value) if 'output_obj' in v: obj = v['output_obj'] obj.revise(output_value) field.get_attribute(name).revise(obj) elif field.get_attribute(name).has_obj(): field.get_attribute(name).get_ref().revise(output_value) else: field.get_attribute(name).revise(values.ValueRef(output_value)) else: temp_value1 = v['input_body_value'] temp_value2 = functions.generate_value_with_same_type( v['input_body_value']) body_graph.add_output_value(temp_value1) outputs.append(temp_value2) node = nodes.NodeListcomp(iter_value, inputs, body_graph, astc.lineno) node.set_outputs(outputs) graph.add_node(node) return local_field.get_attribute(internal_list_id).get_ref()
def generate_value_with_same_type(value: 'values.Value', is_dummy_value = False, suffix_type = SuffixType.Unknown): assert(isinstance(value, values.Value)) ret = None if isinstance(value, values.TensorValue): ret = values.TensorValue() ret.shape = value.shape ret.dtype = value.dtype elif isinstance(value, values.NumberValue): dtype = None if value.internal_value is None: dtype = value.dtype elif isinstance(value.internal_value, int): dtype = np.array(value.internal_value).dtype elif isinstance(value.internal_value, float): dtype = np.array(value.internal_value).dtype ret = values.NumberValue(None) ret.dtype = dtype elif isinstance(value, values.StrValue): ret = values.StrValue(None) elif isinstance(value, values.BoolValue): ret = values.BoolValue(None) elif isinstance(value, values.ListValue): ret = values.ListValue(None) ret.dtype = value.dtype ret.vtype = value.vtype elif isinstance(value, values.NoneValue): ret = values.NoneValue() elif isinstance(value, values.TupleValue): ret = values.TupleValue() ret.dtype = value.dtype ret.vtype = value.vtype elif isinstance(value, values.RangeValue): ret = values.RangeValue() elif isinstance(value, values.UnknownValue): ret = values.UnknownValue() elif ret is None and isinstance(value, values.Value): ret = values.Value() else: assert(False) assert(ret is not None) ret.is_dummy_value = is_dummy_value if suffix_type == SuffixType.Unknown: ret.name = value.name + '_st' elif suffix_type == SuffixType.Unused: ret.name = value.name + '_unused' elif suffix_type == SuffixType.Dummy: ret.name = value.name + '_dummy' elif suffix_type == SuffixType.Input: ret.name = value.name + '_in' else: assert(False) return ret
def return_NStepBiLSTM(): list_tensor = values.ListValue() list_tensor.vtype = values.TensorValue return [values.TensorValue(), values.TensorValue(), list_tensor]