# 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. from py_paddle import swig_paddle import paddle.trainer.config_parser import numpy import util def init_params(params): def init_param(p): assert isinstance(p, swig_paddle.Parameter) val = p.getBuf(swig_paddle.PARAMETER_VALUE) assert isinstance(val, swig_paddle.Vector) arr = val.toNumpyArrayInplace() for i in xrange(len(arr)): arr[i] = numpy.random.uniform(-1.0, 1.0) for p in params: init_param(p) def init_optimizers(opt_conf, params): opts = {} for param in params: param_conf = param.getConfig().toProto() opts[param.getID()] = swig_paddle.ParameterOptimizer.create(opt_conf) opts[param.getID()].init(param_conf.dims[1], param.getConfig()) retv_opts = [None for _ in xrange(len(opts))] for k in opts: assert k < len(retv_opts) retv_opts[k] = opts[k] return retv_opts def main(): trainer_config = paddle.trainer.config_parser.parse_config( "./testTrainConfig.py", "") opt_config = trainer_config.opt_config print "========Optimization Config =======" print opt_config print "===================================" opt_config = swig_paddle.OptimizationConfig.createFromProto(opt_config) _temp_optimizer_ = swig_paddle.ParameterOptimizer.create(opt_config) enable_types = _temp_optimizer_.getParameterTypes() m = swig_paddle.GradientMachine.createFromConfigProto( trainer_config.model_config, swig_paddle.CREATE_MODE_NORMAL, enable_types) assert m is not None assert isinstance(m, swig_paddle.GradientMachine) init_params(m.getParameters()) optimizers = init_optimizers(opt_config, m.getParameters()) # Train One Pass. for optimizer in optimizers: optimizer.startPass() batch_id = 0 while True: # Train one batch batch_size = 1000 inArgs, atEnd = util.loadMNISTTrainData(batch_size) if atEnd: break outArgs = swig_paddle.Arguments.createArguments(0) for optimizer in optimizers: optimizer.startBatch(batch_size) def update_callback(param): try: bufs = list(param.getBufs()) opt = optimizers[param.getID()] opt.update(bufs, param.getConfig()) callback = opt.needSpecialTraversal(param.getConfig()) if callback is not None: callback(bufs, param.getConfig(), swig_paddle.NO_SPARSE_ID) except Exception as e: print e m.forwardBackward(inArgs, outArgs, swig_paddle.PASS_TRAIN, update_callback) for optimizer in optimizers: optimizer.finishBatch() cost_vec = outArgs.getSlotValue(0) assert isinstance(cost_vec, swig_paddle.Matrix) cost_vec = cost_vec.copyToNumpyMat() print 'Finish Batch', batch_id, 'with cost ', cost_vec.sum( ) / batch_size batch_id += 1 for optimizer in optimizers: optimizer.finishPass() if __name__ == '__main__': swig_paddle.initPaddle("--use_gpu=0", "--trainer_count=1") main()