""" this module is used as a template for generating sub class of Network """ class MyNet(object): ### automatically generated by caffe2fluid ### inputs_info = "INPUTS_INFO" custom_layers_path = "_CAFFE2FLUID_CUSTOM_LAYERS_" def custom_layer_factory(self): import os pk_paths = [] default = os.path.dirname(os.path.abspath(__file__)) location = os.environ.get('CAFFE2FLUID_CUSTOM_LAYERS', default) pk_name = 'custom_layers' pk_dir = os.path.join(location, pk_name) pk_paths.append((location, pk_dir)) location = MyNet.custom_layers_path pk_dir = os.path.join(MyNet.custom_layers_path, pk_name) pk_paths.append((location, pk_dir)) for loc, pk_dir in pk_paths: if os.path.exists(pk_dir): if loc not in sys.path: sys.path.insert(0, loc) break try: from custom_layers import make_custom_layer return make_custom_layer except Exception as e: print('maybe you should set $CAFFE2FLUID_CUSTOM_LAYERS first') raise e @classmethod def input_shapes(cls): return cls.inputs_info @classmethod def convert(cls, npy_model, fluid_path, outputs=None): fluid = import_fluid() shapes = cls.input_shapes() input_name = shapes.keys()[0] feed_data = {} for name, shape in shapes.items(): data_layer = fluid.layers.data( name=name, shape=shape, dtype="float32") feed_data[name] = data_layer net = cls(feed_data) place = fluid.CPUPlace() exe = fluid.Executor(place) exe.run(fluid.default_startup_program()) net.load(data_path=npy_model, exe=exe, place=place) output_vars = [] model_filename = 'model' params_filename = 'params' if outputs is None: output_vars.append(net.get_output()) else: if outputs[0] == 'dump_all': model_filename = None params_filename = None output_vars.append(net.get_output()) else: if type(outputs) is list: for n in outputs: assert n in net.layers, 'not found layer with this name[%s]' % ( n) output_vars.append(net.layers[n]) fluid.io.save_inference_model( fluid_path, [input_name], output_vars, exe, main_program=None, model_filename=model_filename, params_filename=params_filename) return 0 def main(): """ a tool used to convert caffe model to fluid """ import sys import os filename = os.path.splitext(os.path.basename(sys.argv[0]))[0] if len(sys.argv) < 3: print('usage:') print(' python %s %s.npy [save_dir] [layer names seperated by comma]' \ % (sys.argv[0], filename)) print(' eg: python %s %s.npy ./fluid' % (sys.argv[0], filename)) print(' eg: python %s %s.npy ./fluid layer_name1,layer_name2' \ % (sys.argv[0], filename)) return 1 npy_weight = sys.argv[1] fluid_model = sys.argv[2] outputs = None if len(sys.argv) >= 4: outputs = sys.argv[3].split(',') ret = MyNet.convert(npy_weight, fluid_model, outputs) if ret == 0: outputs = 'last output layer' if outputs is None else outputs print('succeed to convert to fluid format with output layers[%s]' ' in directory[%s]' % (outputs, fluid_model)) else: print('failed to convert model to fluid format') return ret def generate_net_code(net_name, inputs_info): """ generate framework of a custom net code which represent a subclass of Network Args: @net_name (str): class name for this net @inputs_info (str): a str which represents a dict, eg: '{"data": [3, 32, 32]}' Returns: net_codes (str): codes for this subclass """ import os import inspect net_codes = str(inspect.getsource(MyNet)) net_codes = net_codes.replace('MyNet(object)', '%s(Network)' % net_name) net_codes = net_codes.replace('MyNet', net_name) net_codes = net_codes.replace('"INPUTS_INFO"', inputs_info) custom_layer_dir = os.path.dirname(os.path.abspath(__file__)) net_codes = net_codes.replace('_CAFFE2FLUID_CUSTOM_LAYERS_', custom_layer_dir) return net_codes def generate_main_code(net_name): """ generate a piece of code for 'main' function Args: @net_name (str): class name for this net Returns: main_codes (str): codes for this main function """ import inspect main_codes = str(inspect.getsource(main)) main_codes = main_codes.replace('MyNet', net_name) return main_codes if __name__ == "__main__": """ just for testing """ print generate_net_code('Attribute', "{'data': [3, 277, 277]}") print generate_main_code('Attribute')