PaddleX/paddlex/repo_apis/PaddleDetection_api/object_det/runner.py

# copyright (c) 2024 PaddlePaddle Authors. All Rights Reserve.
# 
# 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.



import os
import tempfile

from ...base import BaseRunner
from ...base.utils.arg import CLIArgument, gather_opts_args
from ...base.utils.subprocess import CompletedProcess


class DetRunner(BaseRunner):
    """ DetRunner """

    def train(self,
              config_path: str,
              cli_args: list,
              device: str,
              ips: str,
              save_dir: str,
              do_eval=True) -> CompletedProcess:
        """train model

        Args:
            config_path (str): the config file path used to train.
            cli_args (list): the additional parameters.
            device (str): the training device.
            ips (str): the ip addresses of nodes when using distribution.
            save_dir (str): the directory path to save training output.
            do_eval (bool, optional): whether or not to evaluate model during training. Defaults to True.

        Returns:
            CompletedProcess: the result of training subprocess execution.
        """
        args, env = self.distributed(device, ips, log_dir=save_dir)
        cli_args = self._gather_opts_args(cli_args)
        cmd = [*args, 'tools/train.py']
        if do_eval:
            cmd.append('--eval')
        cmd.extend(['--config', config_path, *cli_args])
        return self.run_cmd(
            cmd,
            env=env,
            switch_wdir=True,
            echo=True,
            silent=False,
            capture_output=True,
            log_path=self._get_train_log_path(save_dir))

    def evaluate(self, config_path: str, cli_args: list, device: str,
                 ips: str) -> CompletedProcess:
        """run model evaluating

        Args:
            config_path (str): the config file path used to evaluate.
            cli_args (list): the additional parameters.
            device (str): the evaluating device.
            ips (str): the ip addresses of nodes when using distribution.

        Returns:
            CompletedProcess: the result of evaluating subprocess execution.
        """
        args, env = self.distributed(device, ips)
        cli_args = self._gather_opts_args(cli_args)
        cmd = [*args, 'tools/eval.py', '--config', config_path, *cli_args]
        cp = self.run_cmd(
            cmd,
            env=env,
            switch_wdir=True,
            echo=True,
            silent=False,
            capture_output=True)
        if cp.returncode == 0:
            metric_dict = _extract_eval_metrics(cp.stdout)
            cp.metrics = metric_dict
        return cp

    def predict(self, config_path: str, cli_args: list,
                device: str) -> CompletedProcess:
        """run predicting using dynamic mode

        Args:
            config_path (str): the config file path used to predict.
            cli_args (list): the additional parameters.
            device (str): unused.

        Returns:
            CompletedProcess: the result of predicting subprocess execution.
        """
        # `device` unused
        cli_args = self._gather_opts_args(cli_args)
        cmd = [self.python, 'tools/infer.py', '-c', config_path, *cli_args]
        return self.run_cmd(cmd, switch_wdir=True, echo=True, silent=False)

    def export(self, config_path: str, cli_args: list,
               device: str) -> CompletedProcess:
        """run exporting

        Args:
            config_path (str): the path of config file used to export.
            cli_args (list): the additional parameters.
            device (str): unused.
            save_dir (str, optional): the directory path to save exporting output. Defaults to None.

        Returns:
            CompletedProcess: the result of exporting subprocess execution.
        """
        # `device` unused
        cli_args = self._gather_opts_args(cli_args)
        cmd = [
            self.python, 'tools/export_model.py', '--for_fd', '-c', config_path,
            *cli_args
        ]

        cp = self.run_cmd(cmd, switch_wdir=True, echo=True, silent=False)
        return cp

    def infer(self, cli_args: list, device: str) -> CompletedProcess:
        """run predicting using inference model

        Args:
            cli_args (list): the additional parameters.
            device (str): unused.

        Returns:
            CompletedProcess: the result of infering subprocess execution.
        """
        # `device` unused
        cmd = [
            self.python, 'deploy/python/infer.py', '--use_fd_format', *cli_args
        ]
        return self.run_cmd(cmd, switch_wdir=True, echo=True, silent=False)

    def compression(self,
                    config_path: str,
                    train_cli_args: list,
                    export_cli_args: list,
                    device: str,
                    train_save_dir: str) -> CompletedProcess:
        """run compression model

        Args:
            config_path (str): the path of config file used to predict.
            train_cli_args (list): the additional training parameters.
            export_cli_args (list): the additional exporting parameters.
            device (str): the running device.
            train_save_dir (str): the directory path to save output.

        Returns:
            CompletedProcess: the result of compression subprocess execution.
        """
        args, env = self.distributed(device, log_dir=train_save_dir)
        train_cli_args = self._gather_opts_args(train_cli_args)
        cmd = [*args, 'tools/train.py', '-c', config_path, *train_cli_args]
        cp_train = self.run_cmd(
            cmd,
            env=env,
            switch_wdir=True,
            echo=True,
            silent=False,
            capture_output=True,
            log_path=self._get_train_log_path(train_save_dir))

        cps_weight_path = os.path.join(train_save_dir, 'model_final')

        export_cli_args.append(CLIArgument('-o', f"weights={cps_weight_path}"))
        export_cli_args = self._gather_opts_args(export_cli_args)
        cmd = [
            self.python, 'tools/export_model.py', '--for_fd', '-c', config_path,
            *export_cli_args
        ]
        cp_export = self.run_cmd(cmd, switch_wdir=True, echo=True, silent=False)

        return cp_train, cp_export

    def _gather_opts_args(self, args):
        """ _gather_opts_args """
        return gather_opts_args(args, '-o')


def _extract_eval_metrics(stdout):
    """extract evaluation metrics from training log

    Args:
        stdout (str): the training log

    Returns:
        dict: the training metric
    """
    import re

    pattern = r'.*\(AP\)\s*@\[\s*IoU=0\.50:0\.95\s*\|\s*area=\s*all\s\|\smaxDets=\s*\d+\s\]\s*=\s*[0-1]?\.[0-9]{3}$'
    key = 'AP'

    metric_dict = dict()
    pattern = re.compile(pattern)
    # TODO: Use lazy version to make it more efficient
    lines = stdout.splitlines()
    metric_dict[key] = 0
    for line in lines:
        match = pattern.search(line)
        if match:
            metric_dict[key] = float(match.group(0)[-5:])

    return metric_dict