#!/usr/bin/env python
# SPDX-License-Identifier: BSD-2-Clause
""" Views the specification. """
# Copyright (C) 2021 embedded brains GmbH & Co. KG
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
# LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
import argparse
import itertools
import sys
from typing import Any, Dict, List, Optional, Set, Tuple
from rtemsspec.build import gather_files
from rtemsspec.items import EmptyItem, Item, ItemCache, ItemMapper, \
ItemGetValueContext
from rtemsspec.rtems import augment_with_test_links, gather_api_items, \
recursive_is_enabled, validate
from rtemsspec.sphinxcontent import SphinxContent
from rtemsspec.transitionmap import Transition, TransitionMap
from rtemsspec.util import load_config
from rtemsspec.validation import augment_with_test_case_links
_CHILD_ROLES = [
"requirement-refinement", "interface-ingroup", "interface-ingroup-hidden",
"interface-function", "glossary-member", "runtime-measurement-request",
"test-case"
]
_PARENT_ROLES = [
"function-implementation", "interface-enumerator",
"performance-runtime-limits"
]
def _get_value_dummy(_ctx: ItemGetValueContext) -> Any:
return ""
_MAPPER = ItemMapper(EmptyItem())
_MAPPER.add_get_value("requirement/functional/action:/text-template",
_get_value_dummy)
_MAPPER.add_get_value("glossary/term:/plural", _get_value_dummy)
_MAPPER.add_get_value(
"requirement/non-functional/performance-runtime:/limit-kind",
_get_value_dummy)
_MAPPER.add_get_value(
"requirement/non-functional/performance-runtime:/limit-condition",
_get_value_dummy)
_MAPPER.add_get_value(
"requirement/non-functional/performance-runtime:/environment",
_get_value_dummy)
_MAPPER.add_get_value(
"requirement/non-functional/performance-runtime-limits:/text-template",
_get_value_dummy)
_SPEC_TYPES = [
"requirement/functional/action",
"requirement/functional/capability",
"requirement/functional/function",
"requirement/non-functional/design",
"requirement/non-functional/design-group",
"requirement/non-functional/interface-requirement",
"requirement/non-functional/performance",
"requirement/non-functional/performance-runtime",
"requirement/non-functional/quality",
]
for type_name in _SPEC_TYPES:
_MAPPER.add_get_value(f"{type_name}:/spec", _get_value_dummy)
def _visit_action_conditions(item: Item, name: str) -> None:
for index, condition in enumerate(item[name]):
for index_2, state in enumerate(condition["states"]):
_MAPPER.substitute(state["text"], item,
f"{name}[{index}]/states[{index_2}]/text")
def _visit_action(item: Item) -> None:
_visit_action_conditions(item, "pre-conditions")
_visit_action_conditions(item, "post-conditions")
_VISITORS = {
"requirement/functional/action": _visit_action,
}
def _info(item: Item) -> str:
if not item.get("_pre_qualified", True):
return ", not-pre-qualified"
try:
if item["_validated"]:
return ""
return ", not-validated"
except KeyError:
return ""
_TEXT_ATTRIBUTES = [
"brief",
"description",
"notes",
"rationale",
"test-brief",
"test-description",
"text",
]
def _visit_item(item: Item, level: int, role: Optional[str],
validated_filter: str) -> bool:
validated = item.get("_validated", True)
if validated_filter == "yes" and not validated:
return False
if validated_filter == "no" and validated:
return False
role_info = "" if role is None else f", role={role}"
print(
f"{' ' * level}{item.uid} (type={item.type}{role_info}{_info(item)})")
for name in _TEXT_ATTRIBUTES:
if name in item:
_MAPPER.substitute(item[name], item)
try:
visitor = _VISITORS[item.type]
except KeyError:
pass
else:
visitor(item)
return True
def _view_interface_placment(item: Item, level: int,
validated_filter: str) -> None:
for link in item.links_to_children("interface-placement"):
if _visit_item(link.item, level, link.role, validated_filter):
_view_interface_placment(link.item, level + 1, validated_filter)
def _view(item: Item, level: int, role: Optional[str],
validated_filter: str) -> None:
if not _visit_item(item, level, role, validated_filter):
return
for child in item.children("validation"):
_visit_item(child, level + 1, "validation", validated_filter)
_view_interface_placment(item, level + 1, validated_filter)
for link in item.links_to_children(_CHILD_ROLES):
_view(link.item, level + 1, link.role, validated_filter)
for link in item.links_to_parents(_PARENT_ROLES):
_view(link.item, level + 1, link.role, validated_filter)
def _validation_count(item: Item) -> int:
return len(list(child for child in item.children("validation")))
def _no_validation(item: Item, path: List[str]) -> List[str]:
path_2 = path + [item.uid]
leaf = _validation_count(item) == 0
for child in item.children(_CHILD_ROLES):
path_2 = _no_validation(child, path_2)
leaf = False
for parent in item.parents(_PARENT_ROLES):
path_2 = _no_validation(parent, path_2)
leaf = False
if leaf and not item.get("_validated", True):
for index, component in enumerate(path_2):
if component:
print(f"{' ' * index}{component}")
path_2[index] = ""
return path_2[:-1]
_REFINEMENTS = ["interface-function", "requirement-refinement"]
_GROUPS = ["requirement/non-functional/design-group", "interface/group"]
def _is_refinement(item: Item, other: Item) -> bool:
for parent in item.parents(_REFINEMENTS):
if parent == other:
return True
if _is_refinement(parent, other):
return True
return False
def _gather_design_components(item: Item, components: List[Item]) -> bool:
if item.type in _GROUPS:
components.append(item)
return True
if item.type.startswith("requirement"):
for parent in item.parents("interface-function"):
components.append(parent)
for parent in item.parents("requirement-refinement"):
_gather_design_components(parent, components)
return True
return False
def _design(item_cache: ItemCache) -> None:
for item in item_cache.values():
if not item.enabled:
continue
components: List[Item] = []
if not _gather_design_components(item, components):
continue
compact: Set[Item] = set()
for component in components:
for component_2 in components:
if component != component_2:
if _is_refinement(component_2, component):
break
else:
compact.add(component)
if compact:
text = ", ".join(component.uid for component in compact)
else:
text = "N/A"
print(f"{item.uid}\t{text}")
def _gather_interface_placement(item: Item, spec: Set) -> None:
for child in item.children("interface-placement"):
spec.add(child)
_gather_interface_placement(child, spec)
def _gather(item: Item, spec: Set) -> None:
spec.add(item)
_gather_interface_placement(item, spec)
for child in item.children("validation"):
spec.add(child)
for child in item.children(_CHILD_ROLES):
_gather(child, spec)
for parent in item.parents(_PARENT_ROLES):
_gather(parent, spec)
def _make_row(transition_map: TransitionMap, map_idx: int,
variant: Transition) -> Tuple[str, ...]:
return tuple(
itertools.chain(
[str(map_idx), str(variant.desc_idx)],
(transition_map.pre_co_idx_st_idx_to_st_name(co_idx, st_idx)
for co_idx, st_idx in enumerate(
transition_map.map_idx_to_pre_co_states(
map_idx, variant.pre_cond_na))),
(transition_map.post_co_idx_st_idx_to_st_name(co_idx, st_idx)
for co_idx, st_idx in enumerate(variant.post_cond))))
def _action_table(item: Item) -> None:
rows = [
tuple(
itertools.chain(["Entry", "Descriptor"],
(condition["name"]
for condition in item["pre-conditions"]),
(condition["name"]
for condition in item["post-conditions"])))
]
transition_map = TransitionMap(item)
for map_idx, variant in transition_map.get_variants(item.cache.enabled):
rows.append(_make_row(transition_map, map_idx, variant))
content = SphinxContent()
content.add_simple_table(rows)
print(str(content))
def _to_name(transition_map, co_idx: int, st_idx: int) -> str:
return (f"{transition_map.post_co_idx_to_co_name(co_idx)} = "
f"{transition_map.post_co_idx_st_idx_to_st_name(co_idx, st_idx)}")
def _action_list(item: Item) -> None:
transition_map = TransitionMap(item)
for post_cond, pre_conds in transition_map.get_post_conditions(
item.cache.enabled):
print("")
if post_cond[0]:
print(transition_map.skip_idx_to_name(post_cond[0]))
else:
names: List[str] = []
for co_idx, st_idx in enumerate(post_cond[1:]):
st_name = transition_map.post_co_idx_st_idx_to_st_name(
co_idx, st_idx)
if st_name != "NA":
co_name = transition_map.post_co_idx_to_co_name(co_idx)
names.append(f"{co_name} = {st_name}")
print(", ".join(names))
for row in pre_conds:
entries = []
for co_idx, co_states in enumerate(row):
co_name = transition_map.pre_co_idx_to_co_name(co_idx)
states = [
transition_map.pre_co_idx_st_idx_to_st_name(
co_idx, st_idx) for st_idx in set(co_states)
]
if len(states) == 1:
if states[0] != "NA":
entries.append(f"{co_name} = {states[0]}")
else:
entries.append(f"{co_name} = {{ " + ", ".join(states) +
" }")
print("")
print(" * " + ", ".join(entries))
def _list_api(item_cache: ItemCache) -> None:
items: Dict[str, List[Item]] = {}
gather_api_items(item_cache, items)
for group, group_items in sorted(items.items()):
print(group)
for item in group_items:
print(f"\t{item['name']}")
def main() -> None:
""" Views the specification. """
# pylint: disable=too-many-branches
parser = argparse.ArgumentParser()
parser.add_argument('--filter',
choices=[
"none", "api", "build", "orphan", "no-validation",
"action-table", "action-list", "design", "types"
],
type=str.lower,
default="none",
help="filter the items")
parser.add_argument('--validated',
choices=["all", "yes", "no"],
type=str.lower,
default="all",
help="filter the items by the validated status")
parser.add_argument(
"--enabled",
help=("a comma separated list of enabled options used to evaluate "
"enabled-by expressions"))
parser.add_argument("UIDs",
metavar="UID",
nargs="*",
help="an UID of a specification item")
args = parser.parse_args(sys.argv[1:])
config = load_config("config.yml")
item_cache_config = config["spec"]
item_cache_config["enabled"] = args.enabled.split(
",") if args.enabled else []
item_cache = ItemCache(item_cache_config,
is_item_enabled=recursive_is_enabled)
augment_with_test_links(item_cache)
augment_with_test_case_links(item_cache)
root = item_cache["/req/root"]
if args.filter == "none":
validate(root)
_view(root, 0, None, args.validated)
elif args.filter == "action-table":
for uid in args.UIDs:
_action_table(item_cache[uid])
elif args.filter == "action-list":
for uid in args.UIDs:
_action_list(item_cache[uid])
elif args.filter == "orphan":
validate(root)
for item in item_cache.values():
if item["type"] in ["build", "spec"]:
continue
if item.enabled and "_validated" not in item:
print(item.uid)
elif args.filter == "no-validation":
validate(root)
_no_validation(root, [])
elif args.filter == "api":
validate(root)
_list_api(item_cache)
elif args.filter == "design":
_design(item_cache)
elif args.filter == "types":
for name in sorted(item_cache.items_by_type.keys()):
print(name)
elif args.filter == "build":
for name in gather_files(config["build"], item_cache, False):
print(name)
if __name__ == "__main__":
main()