kopia lustrzana https://github.com/espressif/esp-idf
308 wiersze
11 KiB
Python
Executable File
308 wiersze
11 KiB
Python
Executable File
#!/usr/bin/env python
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#
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# SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
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# SPDX-License-Identifier: Apache-2.0
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import argparse
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import inspect
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import os
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import sys
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from collections import defaultdict
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from itertools import product
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import yaml
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from check_rules_yml import get_needed_rules
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from idf_ci_utils import IDF_PATH
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try:
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import pygraphviz as pgv
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except ImportError: # used when pre-commit, skip generating image
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pass
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try:
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from typing import Union
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except ImportError: # used for type hint
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pass
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def _list(str_or_list): # type: (Union[str, list]) -> list
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if isinstance(str_or_list, str):
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return [str_or_list]
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elif isinstance(str_or_list, list):
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return str_or_list
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else:
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raise ValueError('Wrong type: {}. Only supports str or list.'.format(type(str_or_list)))
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def _format_nested_dict(_dict, f_tuple): # type: (dict[str, dict], tuple[str, ...]) -> dict[str, dict]
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res = {}
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for k, v in _dict.items():
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k = k.split('__')[0]
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if isinstance(v, dict):
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v = _format_nested_dict(v, f_tuple)
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elif isinstance(v, list):
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v = _format_nested_list(v, f_tuple)
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elif isinstance(v, str):
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v = v.format(*f_tuple)
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res[k.format(*f_tuple)] = v
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return res
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def _format_nested_list(_list, f_tuple): # type: (list[str], tuple[str, ...]) -> list[str]
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res = []
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for item in _list:
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if isinstance(item, list):
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item = _format_nested_list(item, f_tuple)
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elif isinstance(item, dict):
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item = _format_nested_dict(item, f_tuple)
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elif isinstance(item, str):
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item = item.format(*f_tuple)
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res.append(item)
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return res
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class RulesWriter:
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AUTO_GENERATE_MARKER = inspect.cleandoc(r'''
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##################
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# Auto Generated #
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##################
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''')
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LABEL_TEMPLATE = inspect.cleandoc(r'''
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.if-label-{0}: &if-label-{0}
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if: '$BOT_LABEL_{1} || $CI_MERGE_REQUEST_LABELS =~ /^(?:[^,\n\r]+,)*{0}(?:,[^,\n\r]+)*$/i'
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''')
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RULE_PROTECTED = ' - <<: *if-protected'
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RULE_PROTECTED_NO_LABEL = ' - <<: *if-protected-no_label'
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RULE_BUILD_ONLY = ' - <<: *if-label-build-only\n' \
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' when: never'
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RULE_REVERT_BRANCH = ' - <<: *if-revert-branch\n' \
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' when: never'
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RULE_LABEL_TEMPLATE = ' - <<: *if-label-{0}'
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RULE_PATTERN_TEMPLATE = ' - <<: *if-dev-push\n' \
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' changes: *patterns-{0}'
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SPECIFIC_RULE_TEMPLATE = ' - <<: *{0}'
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RULES_TEMPLATE = inspect.cleandoc(r"""
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.rules:{0}:
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rules:
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{1}
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""")
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KEYWORDS = ['labels', 'patterns']
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def __init__(self, rules_yml, depend_yml): # type: (str, str) -> None
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self.rules_yml = rules_yml
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self.rules_cfg = yaml.load(open(rules_yml), Loader=yaml.FullLoader)
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self.full_cfg = yaml.load(open(depend_yml), Loader=yaml.FullLoader)
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self.cfg = {k: v for k, v in self.full_cfg.items() if not k.startswith('.')}
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self.cfg = self.expand_matrices()
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self.rules = self.expand_rules()
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self.graph = None
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def expand_matrices(self): # type: () -> dict
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"""
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Expand the matrix into different rules
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"""
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res = {}
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for k, v in self.cfg.items():
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res.update(self._expand_matrix(k, v))
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for k, v in self.cfg.items():
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if not v:
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continue
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deploy = v.get('deploy')
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if deploy:
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for item in _list(deploy):
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res['{}-{}'.format(k, item)] = v
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return res
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@staticmethod
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def _expand_matrix(name, cfg): # type: (str, dict) -> dict
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"""
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Expand matrix into multi keys
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:param cfg: single rule dict
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:return:
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"""
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default = {name: cfg}
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if not cfg:
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return default
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matrices = cfg.pop('matrix', None)
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if not matrices:
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return default
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res = {}
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for comb in product(*_list(matrices)):
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res.update(_format_nested_dict(default, comb))
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return res
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def expand_rules(self): # type: () -> dict[str, dict[str, list]]
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res = defaultdict(lambda: defaultdict(set)) # type: dict[str, dict[str, set]]
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for k, v in self.cfg.items():
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if not v:
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continue
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for vk, vv in v.items():
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if vk in self.KEYWORDS:
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res[k][vk] = set(_list(vv))
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else:
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res[k][vk] = vv
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for key in self.KEYWORDS: # provide empty set for missing field
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if key not in res[k]:
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res[k][key] = set()
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for k, v in self.cfg.items():
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if not v:
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continue
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if 'included_in' in v:
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for item in _list(v['included_in']):
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if 'specific_rules' in v:
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res[item]['specific_rules'].update(_list(v['specific_rules']))
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if 'labels' in v:
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res[item]['labels'].update(_list(v['labels']))
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if 'patterns' in v:
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for _pat in _list(v['patterns']):
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# Patterns must be pre-defined
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if '.patterns-{}'.format(_pat) not in self.rules_cfg:
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print('WARNING: pattern {} not exists'.format(_pat))
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continue
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res[item]['patterns'].add(_pat)
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sorted_res = defaultdict(lambda: defaultdict(list)) # type: dict[str, dict[str, list]]
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for k, v in res.items():
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for vk, vv in v.items():
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sorted_res[k][vk] = sorted(vv)
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return sorted_res
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def new_labels_str(self): # type: () -> str
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_labels = set([])
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for k, v in self.cfg.items():
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if not v:
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continue # shouldn't be possible
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labels = v.get('labels')
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if not labels:
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continue
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_labels.update(_list(labels))
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labels = sorted(_labels)
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res = ''
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res += '\n\n'.join([self._format_label(_label) for _label in labels])
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return res
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@classmethod
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def _format_label(cls, label): # type: (str) -> str
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return cls.LABEL_TEMPLATE.format(label, cls.bot_label_str(label))
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@staticmethod
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def bot_label_str(label): # type: (str) -> str
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return label.upper().replace('-', '_')
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def new_rules_str(self): # type: () -> str
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res = []
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for k, v in sorted(self.rules.items()):
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if '.rules:' + k not in get_needed_rules():
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print(f'WARNING: unused rule: {k}, skipping...')
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continue
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res.append(self.RULES_TEMPLATE.format(k, self._format_rule(k, v)))
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return '\n\n'.join(res)
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def _format_rule(self, name, cfg): # type: (str, dict) -> str
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_rules = [self.RULE_REVERT_BRANCH]
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if name.endswith('-production'):
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_rules.append(self.RULE_PROTECTED_NO_LABEL)
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else:
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if not (name.endswith('-preview') or name.startswith('labels:')):
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_rules.append(self.RULE_PROTECTED)
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if name.startswith('test:'):
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_rules.append(self.RULE_BUILD_ONLY)
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for specific_rule in cfg['specific_rules']:
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if f'.{specific_rule}' in self.rules_cfg:
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_rules.append(self.SPECIFIC_RULE_TEMPLATE.format(specific_rule))
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else:
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print('WARNING: specific_rule {} not exists'.format(specific_rule))
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for label in cfg['labels']:
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_rules.append(self.RULE_LABEL_TEMPLATE.format(label))
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for pattern in cfg['patterns']:
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if '.patterns-{}'.format(pattern) in self.rules_cfg:
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_rules.append(self.RULE_PATTERN_TEMPLATE.format(pattern))
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else:
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print('WARNING: pattern {} not exists'.format(pattern))
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return '\n'.join(_rules)
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def update_rules_yml(self): # type: () -> bool
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with open(self.rules_yml) as fr:
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file_str = fr.read()
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auto_generate_str = '\n{}\n\n{}\n'.format(self.new_labels_str(), self.new_rules_str())
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rest, marker, old = file_str.partition(self.AUTO_GENERATE_MARKER)
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if old == auto_generate_str:
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return False
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else:
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print(self.rules_yml, 'has been modified. Please check')
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with open(self.rules_yml, 'w') as fw:
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fw.write(rest + marker + auto_generate_str)
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return True
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LABEL_COLOR = 'green'
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PATTERN_COLOR = 'cyan'
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RULE_COLOR = 'blue'
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def build_graph(rules_dict): # type: (dict[str, dict[str, list]]) -> pgv.AGraph
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graph = pgv.AGraph(directed=True, rankdir='LR', concentrate=True)
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for k, v in rules_dict.items():
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if not v:
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continue
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included_in = v.get('included_in')
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if included_in:
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for item in _list(included_in):
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graph.add_node(k, color=RULE_COLOR)
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graph.add_node(item, color=RULE_COLOR)
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graph.add_edge(k, item, color=RULE_COLOR)
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labels = v.get('labels')
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if labels:
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for _label in labels:
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graph.add_node('label:{}'.format(_label), color=LABEL_COLOR)
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graph.add_edge('label:{}'.format(_label), k, color=LABEL_COLOR)
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patterns = v.get('patterns')
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if patterns:
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for _pat in patterns:
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graph.add_node('pattern:{}'.format(_pat), color=PATTERN_COLOR)
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graph.add_edge('pattern:{}'.format(_pat), k, color=PATTERN_COLOR)
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return graph
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def output_graph(graph, output_path='output.png'): # type: (pgv.AGraph, str) -> None
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graph.layout('dot')
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if output_path.endswith('.png'):
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img_path = output_path
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else:
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img_path = os.path.join(output_path, 'output.png')
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graph.draw(img_path)
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if __name__ == '__main__':
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parser = argparse.ArgumentParser(description=__doc__)
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parser.add_argument('rules_yml', nargs='?', default=os.path.join(IDF_PATH, '.gitlab', 'ci', 'rules.yml'),
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help='rules.yml file path')
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parser.add_argument('dependencies_yml', nargs='?', default=os.path.join(IDF_PATH, '.gitlab', 'ci', 'dependencies',
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'dependencies.yml'),
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help='dependencies.yml file path')
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parser.add_argument('--graph',
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help='Specify PNG image output path. Use this argument to generate dependency graph')
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args = parser.parse_args()
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writer = RulesWriter(args.rules_yml, args.dependencies_yml)
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file_modified = writer.update_rules_yml()
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if args.graph:
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dep_tree_graph = build_graph(writer.rules)
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output_graph(dep_tree_graph)
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sys.exit(file_modified)
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