lightning/pytorch_lightning/root_module/model_saving.py

import torch
import os
import re


class ModelIO(object):

    def load_model_specific(self, checkpoint):
        """
        Do something with the checkpoint
        :param checkpoint:
        :return:
        """
        raise NotImplementedError

    def get_save_dict(self):
        """
        Return specific things for the model
        :return:
        """
        raise NotImplementedError


class TrainerIO(object):

    # --------------------
    # MODEL SAVE CHECKPOINT
    # --------------------
    def save_checkpoint(self, filepath):
        checkpoint = self.dump_checkpoint()

        # do the actual save
        torch.save(checkpoint, filepath)

    def dump_checkpoint(self):
        checkpoint = {
            'epoch': self.current_epoch,
            'checkpoint_callback_best': self.checkpoint_callback.best,
            'early_stop_callback_wait': self.early_stop_callback.wait,
            'early_stop_callback_patience': self.early_stop_callback.patience,
            'global_step': self.global_step
        }

        optimizer_states = []
        for i, optimizer in enumerate(self.optimizers):
            optimizer_states.append(optimizer.state_dict())

        checkpoint['optimizer_states'] = optimizer_states

        # request what to save from the model
        checkpoint_dict = self.model.get_save_dict()

        # merge trainer and model saving items
        checkpoint.update(checkpoint_dict)
        return checkpoint

    # --------------------
    # HPC IO
    # --------------------
    def enable_auto_hpc_walltime_manager(self):
        if self.cluster is None:
            return

        # allow test tube to handle model check pointing automatically
        self.cluster.set_checkpoint_save_function(
            self.hpc_save,
            kwargs={
                'folderpath': self.checkpoint_callback.filepath,
                'experiment': self.experiment
            }
        )
        self.cluster.set_checkpoint_load_function(
            self.hpc_load,
            kwargs={
                'folderpath': self.checkpoint_callback.filepath,
                'on_gpu': self.on_gpu
            }
        )

    def restore_training_state(self, checkpoint):
        """
        Restore trainer state.
        Model will get its change to update
        :param checkpoint:
        :return:
        """
        self.checkpoint_callback.best = checkpoint['checkpoint_callback_best']
        self.early_stop_callback.wait = checkpoint['early_stop_callback_wait']
        self.early_stop_callback.patience = checkpoint['early_stop_callback_patience']
        self.global_step = checkpoint['global_step']
        self.current_epoch = checkpoint['epoch']

        # restore the optimizers
        optimizer_states = checkpoint['optimizer_states']
        for optimizer, opt_state in zip(self.optimizers, optimizer_states):
            optimizer.load_state_dict(opt_state)

    # ----------------------------------
    # PRIVATE OPS
    # ----------------------------------
    def hpc_save(self, folderpath, experiment):
        # save exp to make sure we get all the metrics
        experiment.save()

        ckpt_number = self.max_ckpt_in_folder(folderpath) + 1

        if not os.path.exists(folderpath):
            os.makedirs(folderpath, exist_ok=True)
        filepath = '{}/hpc_ckpt_{}.ckpt'.format(folderpath, ckpt_number)

        # request what to save from the model
        checkpoint_dict = self.dump_checkpoint()

        # do the actual save
        torch.save(checkpoint_dict, filepath)

    def hpc_load(self, folderpath, on_gpu):
        filepath = '{}/hpc_ckpt_{}.ckpt'.format(folderpath, self.max_ckpt_in_folder(folderpath))

        if on_gpu:
            checkpoint = torch.load(filepath)
        else:
            checkpoint = torch.load(filepath, map_location=lambda storage, loc: storage)

        # load training state
        self.restore_training_state(checkpoint)

        # load model state
        self.model.load_model_specific(checkpoint)

    def max_ckpt_in_folder(self, path):
        files = os.listdir(path)
        ckpt_vs = []
        for name in files:
            name = name.split('ckpt_')[-1]
            name = re.sub('[^0-9]', '', name)
            ckpt_vs.append(int(name))

        return max(ckpt_vs)


def load_hparams_from_tags_csv(tags_csv):
    from argparse import Namespace
    import pandas as pd

    tags_df = pd.read_csv(tags_csv)
    dic = tags_df.to_dict(orient='records')

    ns_dict = {row['key']: convert(row['value']) for row in dic}

    ns = Namespace(**ns_dict)
    return ns


def convert(val):
    constructors = [int, float, str]

    if type(val) is str:
        if val.lower() == 'true':
            return True
        if val.lower() == 'false':
            return False

    for c in constructors:
        try:
            return c(val)
        except ValueError:
            pass
    return val
updated lib name 2019-03-31 01:45:16 +00:00			`import torch`
			`import os`
			`import re`


			`class ModelIO(object):`

			`def load_model_specific(self, checkpoint):`
			`"""`
			`Do something with the checkpoint`
			`:param checkpoint:`
			`:return:`
			`"""`
			`raise NotImplementedError`

			`def get_save_dict(self):`
			`"""`
			`Return specific things for the model`
			`:return:`
			`"""`
			`raise NotImplementedError`


			`class TrainerIO(object):`

			`# --------------------`
			`# MODEL SAVE CHECKPOINT`
			`# --------------------`
			`def save_checkpoint(self, filepath):`
			`checkpoint = self.dump_checkpoint()`

			`# do the actual save`
			`torch.save(checkpoint, filepath)`

			`def dump_checkpoint(self):`
			`checkpoint = {`
			`'epoch': self.current_epoch,`
			`'checkpoint_callback_best': self.checkpoint_callback.best,`
			`'early_stop_callback_wait': self.early_stop_callback.wait,`
			`'early_stop_callback_patience': self.early_stop_callback.patience,`
			`'global_step': self.global_step`
			`}`

			`optimizer_states = []`
			`for i, optimizer in enumerate(self.optimizers):`
			`optimizer_states.append(optimizer.state_dict())`

			`checkpoint['optimizer_states'] = optimizer_states`

			`# request what to save from the model`
			`checkpoint_dict = self.model.get_save_dict()`

			`# merge trainer and model saving items`
			`checkpoint.update(checkpoint_dict)`
			`return checkpoint`

			`# --------------------`
			`# HPC IO`
			`# --------------------`
			`def enable_auto_hpc_walltime_manager(self):`
			`if self.cluster is None:`
			`return`

			`# allow test tube to handle model check pointing automatically`
			`self.cluster.set_checkpoint_save_function(`
			`self.hpc_save,`
			`kwargs={`
			`'folderpath': self.checkpoint_callback.filepath,`
			`'experiment': self.experiment`
			`}`
			`)`
			`self.cluster.set_checkpoint_load_function(`
			`self.hpc_load,`
			`kwargs={`
			`'folderpath': self.checkpoint_callback.filepath,`
			`'on_gpu': self.on_gpu`
			`}`
			`)`

			`def restore_training_state(self, checkpoint):`
			`"""`
			`Restore trainer state.`
			`Model will get its change to update`
			`:param checkpoint:`
			`:return:`
			`"""`
			`self.checkpoint_callback.best = checkpoint['checkpoint_callback_best']`
			`self.early_stop_callback.wait = checkpoint['early_stop_callback_wait']`
			`self.early_stop_callback.patience = checkpoint['early_stop_callback_patience']`
			`self.global_step = checkpoint['global_step']`
fixed epoch continuation from checkpoint 2019-05-05 16:15:04 +00:00			`self.current_epoch = checkpoint['epoch']`
updated lib name 2019-03-31 01:45:16 +00:00
			`# restore the optimizers`
			`optimizer_states = checkpoint['optimizer_states']`
			`for optimizer, opt_state in zip(self.optimizers, optimizer_states):`
			`optimizer.load_state_dict(opt_state)`

			`# ----------------------------------`
			`# PRIVATE OPS`
			`# ----------------------------------`
			`def hpc_save(self, folderpath, experiment):`
			`# save exp to make sure we get all the metrics`
			`experiment.save()`

			`ckpt_number = self.max_ckpt_in_folder(folderpath) + 1`

			`if not os.path.exists(folderpath):`
			`os.makedirs(folderpath, exist_ok=True)`
			`filepath = '{}/hpc_ckpt_{}.ckpt'.format(folderpath, ckpt_number)`

			`# request what to save from the model`
			`checkpoint_dict = self.dump_checkpoint()`

			`# do the actual save`
			`torch.save(checkpoint_dict, filepath)`

			`def hpc_load(self, folderpath, on_gpu):`
			`filepath = '{}/hpc_ckpt_{}.ckpt'.format(folderpath, self.max_ckpt_in_folder(folderpath))`

			`if on_gpu:`
			`checkpoint = torch.load(filepath)`
			`else:`
			`checkpoint = torch.load(filepath, map_location=lambda storage, loc: storage)`

			`# load training state`
			`self.restore_training_state(checkpoint)`

			`# load model state`
			`self.model.load_model_specific(checkpoint)`

			`def max_ckpt_in_folder(self, path):`
			`files = os.listdir(path)`
			`ckpt_vs = []`
			`for name in files:`
			`name = name.split('ckpt_')[-1]`
			`name = re.sub('[^0-9]', '', name)`
			`ckpt_vs.append(int(name))`

			`return max(ckpt_vs)`


			`def load_hparams_from_tags_csv(tags_csv):`
			`from argparse import Namespace`
			`import pandas as pd`

			`tags_df = pd.read_csv(tags_csv)`
			`dic = tags_df.to_dict(orient='records')`

			`ns_dict = {row['key']: convert(row['value']) for row in dic}`

			`ns = Namespace(**ns_dict)`
			`return ns`


			`def convert(val):`
			`constructors = [int, float, str]`

			`if type(val) is str:`
			`if val.lower() == 'true':`
			`return True`
			`if val.lower() == 'false':`
			`return False`

			`for c in constructors:`
			`try:`
			`return c(val)`
			`except ValueError:`
			`pass`
			`return val`