"""Collecting Processes and Process-related items."""
from __future__ import annotations
-from sqlite3 import Row
-from datetime import datetime
-from plomtask.db import DatabaseConnection
+from typing import Any, Set
+from plomtask.db import DatabaseConnection, BaseModel
+from plomtask.misc import VersionedAttribute
+from plomtask.conditions import Condition
+from plomtask.exceptions import NotFoundException, BadFormatException
-class Process:
+class Process(BaseModel):
"""Template for, and metadata for, Todos, and their arrangements."""
+ table_name = 'processes'
- def __init__(self, id_: int | None) -> None:
- self.id_ = id_ if id_ != 0 else None # to avoid DB-confusing rowid=0
- self.title = VersionedAttribute(self, 'title', 'UNNAMED')
- self.description = VersionedAttribute(self, 'description', '')
- self.effort = VersionedAttribute(self, 'effort', 1.0)
+ # pylint: disable=too-many-instance-attributes
- @classmethod
- def from_table_row(cls, row: Row) -> Process:
- """Make Process from database row, with empty VersionedAttributes."""
- return cls(row[0])
+ def __init__(self, id_: int | None) -> None:
+ self.set_int_id(id_)
+ self.title = VersionedAttribute(self, 'process_titles', 'UNNAMED')
+ self.description = VersionedAttribute(self, 'process_descriptions', '')
+ self.effort = VersionedAttribute(self, 'process_efforts', 1.0)
+ self.explicit_steps: list[ProcessStep] = []
+ self.conditions: list[Condition] = []
+ self.fulfills: list[Condition] = []
+ self.undoes: list[Condition] = []
@classmethod
def all(cls, db_conn: DatabaseConnection) -> list[Process]:
"""Collect all Processes and their connected VersionedAttributes."""
processes = {}
- for row in db_conn.exec('SELECT * FROM processes'):
- process = cls.from_table_row(row)
- processes[process.id_] = process
- for row in db_conn.exec('SELECT * FROM process_titles'):
- processes[row[0]].title.history[row[1]] = row[2]
- for row in db_conn.exec('SELECT * FROM process_descriptions'):
- processes[row[0]].description.history[row[1]] = row[2]
- for row in db_conn.exec('SELECT * FROM process_efforts'):
- processes[row[0]].effort.history[row[1]] = row[2]
+ for id_, process in db_conn.cached_processes.items():
+ processes[id_] = process
+ already_recorded = processes.keys()
+ for row in db_conn.exec('SELECT id FROM processes'):
+ if row[0] not in already_recorded:
+ process = cls.by_id(db_conn, row[0])
+ processes[process.id_] = process
return list(processes.values())
@classmethod
- def by_id(cls, db_conn: DatabaseConnection,
- id_: int | None, create: bool = False) -> Process | None:
- """Collect all Processes and their connected VersionedAttributes."""
+ def by_id(cls, db_conn: DatabaseConnection, id_: int | None,
+ create: bool = False) -> Process:
+ """Collect Process, its VersionedAttributes, and its child IDs."""
process = None
- for row in db_conn.exec('SELECT * FROM processes '
- 'WHERE id = ?', (id_,)):
- process = cls(row[0])
- break
- if create and not process:
+ if id_:
+ process, _ = super()._by_id(db_conn, id_)
+ if not process:
+ if not create:
+ raise NotFoundException(f'Process not found of id: {id_}')
process = Process(id_)
- if process:
- for row in db_conn.exec('SELECT * FROM process_titles '
- 'WHERE process_id = ?', (process.id_,)):
- process.title.history[row[1]] = row[2]
- for row in db_conn.exec('SELECT * FROM process_descriptions '
- 'WHERE process_id = ?', (process.id_,)):
- process.description.history[row[1]] = row[2]
- for row in db_conn.exec('SELECT * FROM process_efforts '
- 'WHERE process_id = ?', (process.id_,)):
- process.effort.history[row[1]] = row[2]
+ for row in db_conn.exec('SELECT * FROM process_titles '
+ 'WHERE parent = ?', (process.id_,)):
+ process.title.history[row[1]] = row[2]
+ for row in db_conn.exec('SELECT * FROM process_descriptions '
+ 'WHERE parent = ?', (process.id_,)):
+ process.description.history[row[1]] = row[2]
+ for row in db_conn.exec('SELECT * FROM process_efforts '
+ 'WHERE parent = ?', (process.id_,)):
+ process.effort.history[row[1]] = row[2]
+ for row in db_conn.exec('SELECT * FROM process_steps '
+ 'WHERE owner = ?', (process.id_,)):
+ process.explicit_steps += [ProcessStep.from_table_row(db_conn,
+ row)]
+ for row in db_conn.exec('SELECT condition FROM process_conditions '
+ 'WHERE process = ?', (process.id_,)):
+ process.conditions += [Condition.by_id(db_conn, row[0])]
+ for row in db_conn.exec('SELECT condition FROM process_fulfills '
+ 'WHERE process = ?', (process.id_,)):
+ process.fulfills += [Condition.by_id(db_conn, row[0])]
+ for row in db_conn.exec('SELECT condition FROM process_undoes '
+ 'WHERE process = ?', (process.id_,)):
+ process.undoes += [Condition.by_id(db_conn, row[0])]
+ assert isinstance(process, Process)
return process
+ def used_as_step_by(self, db_conn: DatabaseConnection) -> list[Process]:
+ """Return Processes using self for a ProcessStep."""
+ owner_ids = set()
+ for owner_id in db_conn.exec('SELECT owner FROM process_steps WHERE'
+ ' step_process = ?', (self.id_,)):
+ owner_ids.add(owner_id[0])
+ return [self.__class__.by_id(db_conn, id_) for id_ in owner_ids]
+
+ def get_steps(self, db_conn: DatabaseConnection, external_owner:
+ Process | None = None) -> dict[int, dict[str, object]]:
+ """Return tree of depended-on explicit and implicit ProcessSteps."""
+
+ def make_node(step: ProcessStep) -> dict[str, object]:
+ is_explicit = False
+ if external_owner is not None:
+ is_explicit = step.owner_id == external_owner.id_
+ process = self.__class__.by_id(db_conn, step.step_process_id)
+ step_steps = process.get_steps(db_conn, external_owner)
+ return {'process': process, 'parent_id': step.parent_step_id,
+ 'is_explicit': is_explicit, 'steps': step_steps}
+
+ def walk_steps(node_id: int, node: dict[str, Any]) -> None:
+ explicit_children = [s for s in self.explicit_steps
+ if s.parent_step_id == node_id]
+ for child in explicit_children:
+ node['steps'][child.id_] = make_node(child)
+ node['seen'] = node_id in seen_step_ids
+ seen_step_ids.add(node_id)
+ for id_, step in node['steps'].items():
+ walk_steps(id_, step)
+
+ steps: dict[int, dict[str, object]] = {}
+ seen_step_ids: Set[int] = set()
+ if external_owner is None:
+ external_owner = self
+ for step in [s for s in self.explicit_steps
+ if s.parent_step_id is None]:
+ assert isinstance(step.id_, int)
+ steps[step.id_] = make_node(step)
+ for step_id, step_node in steps.items():
+ walk_steps(step_id, step_node)
+ return steps
+
+ def set_conditions(self, db_conn: DatabaseConnection, ids: list[int],
+ trgt: str = 'conditions') -> None:
+ """Set self.[target] to Conditions identified by ids."""
+ trgt_list = getattr(self, trgt)
+ while len(trgt_list) > 0:
+ trgt_list.pop()
+ for id_ in ids:
+ trgt_list += [Condition.by_id(db_conn, id_)]
+
+ def set_fulfills(self, db_conn: DatabaseConnection,
+ ids: list[int]) -> None:
+ """Set self.fulfills to Conditions identified by ids."""
+ self.set_conditions(db_conn, ids, 'fulfills')
+
+ def set_undoes(self, db_conn: DatabaseConnection, ids: list[int]) -> None:
+ """Set self.undoes to Conditions identified by ids."""
+ self.set_conditions(db_conn, ids, 'undoes')
+
+ def _add_step(self,
+ db_conn: DatabaseConnection,
+ id_: int | None,
+ step_process_id: int,
+ parent_step_id: int | None) -> ProcessStep:
+ """Create new ProcessStep, save and add it to self.explicit_steps.
+
+ Also checks against step recursion.
+
+ The new step's parent_step_id will fall back to None either if no
+ matching ProcessStep is found (which can be assumed in case it was
+ just deleted under its feet), or if the parent step would not be
+ owned by the current Process.
+ """
+ def walk_steps(node: ProcessStep) -> None:
+ if node.step_process_id == self.id_:
+ raise BadFormatException('bad step selection causes recursion')
+ step_process = self.by_id(db_conn, node.step_process_id)
+ for step in step_process.explicit_steps:
+ walk_steps(step)
+ if parent_step_id is not None:
+ try:
+ parent_step = ProcessStep.by_id(db_conn, parent_step_id)
+ if parent_step.owner_id != self.id_:
+ parent_step_id = None
+ except NotFoundException:
+ parent_step_id = None
+ assert isinstance(self.id_, int)
+ step = ProcessStep(id_, self.id_, step_process_id, parent_step_id)
+ walk_steps(step)
+ self.explicit_steps += [step]
+ step.save(db_conn) # NB: This ensures a non-None step.id_.
+ return step
+
+ def set_steps(self, db_conn: DatabaseConnection,
+ steps: list[tuple[int | None, int, int | None]]) -> None:
+ """Set self.explicit_steps in bulk."""
+ for step in self.explicit_steps:
+ assert isinstance(step.id_, int)
+ del db_conn.cached_process_steps[step.id_]
+ self.explicit_steps = []
+ db_conn.exec('DELETE FROM process_steps WHERE owner = ?',
+ (self.id_,))
+ for step_tuple in steps:
+ self._add_step(db_conn, step_tuple[0],
+ step_tuple[1], step_tuple[2])
+
def save(self, db_conn: DatabaseConnection) -> None:
- """Add (or re-write) self and connected VersionedAttributes to DB."""
- cursor = db_conn.exec('REPLACE INTO processes VALUES (?)', (self.id_,))
- self.id_ = cursor.lastrowid
+ """Add (or re-write) self and connected items to DB."""
+ self.save_core(db_conn)
self.title.save(db_conn)
self.description.save(db_conn)
self.effort.save(db_conn)
+ db_conn.exec('DELETE FROM process_conditions WHERE process = ?',
+ (self.id_,))
+ for condition in self.conditions:
+ db_conn.exec('INSERT INTO process_conditions VALUES (?,?)',
+ (self.id_, condition.id_))
+ db_conn.exec('DELETE FROM process_fulfills WHERE process = ?',
+ (self.id_,))
+ for condition in self.fulfills:
+ db_conn.exec('INSERT INTO process_fulfills VALUES (?,?)',
+ (self.id_, condition.id_))
+ db_conn.exec('DELETE FROM process_undoes WHERE process = ?',
+ (self.id_,))
+ for condition in self.undoes:
+ db_conn.exec('INSERT INTO process_undoes VALUES (?,?)',
+ (self.id_, condition.id_))
+ assert isinstance(self.id_, int)
+ db_conn.exec('DELETE FROM process_steps WHERE owner = ?',
+ (self.id_,))
+ for step in self.explicit_steps:
+ step.save(db_conn)
+ db_conn.cached_processes[self.id_] = self
+
+class ProcessStep(BaseModel):
+ """Sub-unit of Processes."""
+ table_name = 'process_steps'
+ to_save = ['owner_id', 'step_process_id', 'parent_step_id']
-class VersionedAttribute:
- """Attributes whose values are recorded as a timestamped history."""
-
- def __init__(self,
- parent: Process, name: str, default: str | float) -> None:
- self.parent = parent
- self.name = name
- self.default = default
- self.history: dict[str, str | float] = {}
-
- @property
- def _newest_timestamp(self) -> str:
- """Return most recent timestamp."""
- return sorted(self.history.keys())[-1]
-
- @property
- def newest(self) -> str | float:
- """Return most recent value, or self.default if self.history empty."""
- if 0 == len(self.history):
- return self.default
- return self.history[self._newest_timestamp]
-
- def set(self, value: str | float) -> None:
- """Add to self.history if and only if not same value as newest one."""
- if 0 == len(self.history) \
- or value != self.history[self._newest_timestamp]:
- self.history[datetime.now().strftime('%Y-%m-%d %H:%M:%S')] = value
-
- def at(self, queried_time: str) -> str | float:
- """Retrieve value of timestamp nearest queried_time from the past."""
- sorted_timestamps = sorted(self.history.keys())
- if 0 == len(sorted_timestamps):
- return self.default
- selected_timestamp = sorted_timestamps[0]
- for timestamp in sorted_timestamps[1:]:
- if timestamp > queried_time:
- break
- selected_timestamp = timestamp
- return self.history[selected_timestamp]
+ def __init__(self, id_: int | None, owner_id: int, step_process_id: int,
+ parent_step_id: int | None) -> None:
+ self.set_int_id(id_)
+ self.owner_id = owner_id
+ self.step_process_id = step_process_id
+ self.parent_step_id = parent_step_id
+
+ @classmethod
+ def by_id(cls, db_conn: DatabaseConnection, id_: int) -> ProcessStep:
+ """Retrieve ProcessStep by id_, or throw NotFoundException."""
+ step, _ = super()._by_id(db_conn, id_)
+ if step:
+ assert isinstance(step, ProcessStep)
+ return step
+ raise NotFoundException(f'found no ProcessStep of ID {id_}')
def save(self, db_conn: DatabaseConnection) -> None:
- """Save as self.history entries, but first wipe old ones."""
- db_conn.exec(f'DELETE FROM process_{self.name}s WHERE process_id = ?',
- (self.parent.id_,))
- for timestamp, value in self.history.items():
- db_conn.exec(f'INSERT INTO process_{self.name}s VALUES (?, ?, ?)',
- (self.parent.id_, timestamp, value))
+ """Default to simply calling self.save_core for simple cases."""
+ self.save_core(db_conn)