mirror of
https://github.com/gristlabs/grist-core.git
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305b133c59
Summary: Biggest change is turning everything to unicode Test Plan: The tests Reviewers: dsagal, paulfitz Reviewed By: dsagal Differential Revision: https://phab.getgrist.com/D2875
1282 lines
56 KiB
Python
1282 lines
56 KiB
Python
# pylint:disable=too-many-lines
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"""
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The data engine ties the code generated from the schema with the document data, and with
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dependency tracking.
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"""
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import contextlib
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import itertools
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import re
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import rlcompleter
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import sys
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import time
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import traceback
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from collections import namedtuple, OrderedDict, Hashable
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import six
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from six.moves import zip
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from sortedcontainers import SortedSet
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import acl
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import actions
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import action_obj
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from autocomplete_context import AutocompleteContext
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from codebuilder import DOLLAR_REGEX
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import depend
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import docactions
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import docmodel
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import gencode
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import logger
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import match_counter
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import objtypes
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from objtypes import strict_equal
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import schema
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import table as table_module
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import useractions
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import column
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import repl
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import urllib_patch # noqa imported for side effect
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log = logger.Logger(__name__, logger.INFO)
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if six.PY2:
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reload(sys)
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sys.setdefaultencoding('utf8') # noqa
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class OrderError(Exception):
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"""
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An exception thrown and handled internally, representing when
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evaluating a formula for a cell requires a value from another cell
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(or lookup) that has not yet itself been evaluated. Formulas used
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to be evaluated recursively, on the program stack, but now ordering
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is organized explicitly by watching for this exception and adapting
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evaluation order appropriately.
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"""
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def __init__(self, message, node, row_id):
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super(OrderError, self).__init__(message)
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self.node = node # The column of the cell evaluated out of order.
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self.row_id = row_id # The row_id of the cell evaluated out of order.
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self.requiring_node = None # The column of the original cell being evaluated.
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# Added later since not known at point of exception.
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self.requiring_row_id = None # the row_id of the original cell being evaluated
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def set_requirer(self, node, row_id):
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self.requiring_node = node
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self.requiring_row_id = row_id
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# An item of work to be done by Engine._update
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WorkItem = namedtuple('WorkItem', ('node', 'row_ids', 'locks'))
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# Returns an AddTable action which can be used to reproduce the given docmodel table
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def _get_table_actions(table):
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schema_cols = [schema.make_column(c.colId, c.type, formula=c.formula, isFormula=c.isFormula)
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for c in table.columns]
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return actions.AddTable(table.tableId, schema_cols)
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# skip private members, and methods we don't want to expose to users.
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skipped_completions = re.compile(r'\.(_|lookupOrAddDerived|getSummarySourceGroup)')
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# The schema for the data is documented in gencode.py.
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# There is a general process by which values get recomputed. There are two stages:
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# (1) when raw data is loaded or changed by an action, it marks things as "dirty".
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# This is done using engine.recompute_map, which maps Nodes to sets of dirty rows.
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# (2) when up-to-date data is needed, _recompute is called, and updates the dirty rows.
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# Up-to-date data is needed when it's required externally (e.g. to send to client), and
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# may be needed recursively when other data is being recomputed.
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# In this implementation, rows are identified by a row_id, which functions like an index, so that
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# data may be stored in lists and typed arrays. This is very memory-efficient when row_ids are
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# dense, but bad when they get too sparse. TODO The proposed solution is to have a condense
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# operation which renumbers row_ids when they get too sparse.
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# TODO:
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# We should support types SubRecord, SubRecordList, and SubRecordMap. Original thought was to
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# represent them as derived tables with special names, such as "Foo.field". This breaks several
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# assumptions about how to organize generated code. Instead, we can use derived tables with valid
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# names (such as "Foo_field"), and add an actual column "field" with an appropriate type. This
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# column may refer to derived tables or independent tables. Derived tables would have an extra
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# property, marking them as derived, which would affect certain UI decisions.
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class Engine(object):
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"""
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The Engine is the core of the grist per-document logic. Some of its methods form the API exposed
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to the Node controller. These are:
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Initialization:
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load_empty()
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Initializes an empty document; useful for newly-created documents.
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load_meta_tables(meta_tables, meta_columns)
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load_table(table_data)
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load_done()
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These three must be called in-order to initialize a non-empty document.
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- First, load_meta_tables() must be called with data for the two special metadata tables
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containing the schema. It returns the list of other table names the data engine expects.
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- Then load_table() must be called once for each of the other tables (both special tables,
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and user tables), with that table's data (no need to call it for empty tables).
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- Finally, load_done() must be called once to finish initialization.
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Other methods:
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fetch_table(table_id, formulas)
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Returns a TableData object containing the full data for the table. Formula columns
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are included only if formulas is True.
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apply_user_actions(user_actions)
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Applies a list of UserActions, which are tuples consisting of the name of the action
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method (as defind in useractions.py) and the arguments to it. Returns ActionGroup tuple,
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containing several categories of DocActions, including the results of computations.
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"""
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class ComputeFrame(object):
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"""
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Represents the node and ID of the value currently being recomputed. There is a stack of
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ComputeFrames, because during computation we may access other out-of-date nodes, and need to
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recompute those first.
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compute_frame.current_row_id gets set to each record ID as we go through them.
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"""
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def __init__(self, node):
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self.node = node
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self.current_row_id = None
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def __init__(self):
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# The document data, incuding logic (formulas), and metadata (tables prefixed with "_grist_").
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self.tables = {} # Maps table IDs (or names) to Table objects.
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# Schema contains information about tables and columns, needed in particular to generate the
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# code, from which in turn we create all the Table and Column objects. Schema is an
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# OrderedDict of tableIds to schema.SchemaTable objects. Each of those contains a .columns
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# OrderedDict of colId to schema.SchemaColumns objects. Order is used when generating code.
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self.schema = OrderedDict()
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# A more convenient interface to the document metadata.
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self.docmodel = docmodel.DocModel(self)
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# The module containing the compiled user code generated from the schema.
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self.gencode = gencode.GenCode()
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# Maintain the dependency graph of what Nodes (columns) depend on what other Nodes.
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self.dep_graph = depend.Graph()
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# Maps Nodes to sets of dirty rows (that need to be recomputed).
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self.recompute_map = {}
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# Maps Nodes to sets of done rows (to avoid recomputing in an infinite loop).
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self._recompute_done_map = {}
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# Contains Nodes once an exception value has been seen for them.
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self._is_node_exception_reported = set()
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# Contains Edges (node1, node2, relation) already seen during formula accesses.
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self._recompute_edge_set = set()
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# Sanity-check counter to check if we are making progress.
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self._recompute_done_counter = 0
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# Maps Nodes to a list of [rowId, value] pairs for cells that have been changed.
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# Ordered to preserve the order in which first change was made to a column.
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# This allows actions to be emitted in a legacy order that a lot of tests depend
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# on. Not necessary to functioning, just a convenience.
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self._changes_map = OrderedDict()
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# This is set when we are running engine._update_loop, which has the ability to
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# evaluate dependencies. We check this flag in engine._recompute_in_order, which will
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# start an update loop if called without one already in place.
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self._in_update_loop = False
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# A set of (node, row_id) cell references. When evaluating a formula, a dependency
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# on any of these cells implies a circular dependency.
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self._locked_cells = set()
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# The lists of actions of different kinds, built up while applying an action.
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self.out_actions = action_obj.ActionGroup()
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# Stack of compute frames.
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self._compute_stack = []
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# Certain recomputations are triggered by a particular doc action. This keep track of it.
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self._triggering_doc_action = None
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# The list of columns that got deleted while applying an action.
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self._gone_columns = []
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# The set of potentially unused LookupMapColumns.
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self._unused_lookups = set()
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# Create the formula tracer that can be overridden to trace formula evaluations. It is called
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# with the Column and Record object for the formula about to be evaluated. It's used in tests.
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self.formula_tracer = lambda col, record: None
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# Create the object that knows how to interpret UserActions.
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self.doc_actions = docactions.DocActions(self)
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# Create the object that knows how to interpret UserActions.
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self.user_actions = useractions.UserActions(self)
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# A flag for when a useraction causes a schema change, to verify consistency afterwards.
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self._schema_updated = False
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# Locals dict for recently executed code in the REPL
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self._repl = repl.REPLInterpreter()
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# Stores an exception representing the first unevaluated cell met while recomputing the
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# current cell.
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self._cell_required_error = None
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# Initial empty context for autocompletions; we update it when we generate the usercode module.
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self._autocomplete_context = AutocompleteContext({})
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def load_empty(self):
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"""
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Initialize an empty document, e.g. a newly-created one.
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"""
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self.load_meta_tables(actions.TableData('_grist_Tables', [], {}),
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actions.TableData('_grist_Tables_column', [], {}))
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self.load_done()
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def load_meta_tables(self, meta_tables, meta_columns):
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"""
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Must be the first method to call for this Engine. The arguments must contain the data for the
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_grist_Tables and _grist_Tables_column tables, in the form of actions.TableData.
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Returns the list of all the other table names that data engine expects to be loaded.
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"""
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self.schema = schema.build_schema(meta_tables, meta_columns)
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# Compile the user-defined module code (containing all formulas in particular).
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self.rebuild_usercode()
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# Load the data into the now-existing metadata tables. This isn't used directly, it's just a
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# mirror of the schema for storage and for looking at.
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self.load_table(meta_tables)
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self.load_table(meta_columns)
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return sorted(table_id for table_id in self.tables
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if table_id not in (meta_tables.table_id, meta_columns.table_id))
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def load_table(self, data):
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"""
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Must be called for each of the metadata tables (except the ones given to load_meta), and for
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each user-defined table. The argument is an actions.TableData object.
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"""
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table = self.tables[data.table_id]
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# Clear all columns, whether or not they are present in the data.
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for column in six.itervalues(table.all_columns):
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column.clear()
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# Only load columns that aren't stored.
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columns = {col_id: data for (col_id, data) in six.iteritems(data.columns)
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if table.has_column(col_id)}
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# Add the records.
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self.add_records(data.table_id, data.row_ids, columns)
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def load_done(self):
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"""
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Finalizes the loading of data into this Engine.
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"""
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self._bring_all_up_to_date()
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def add_records(self, table_id, row_ids, column_values):
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"""
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Helper to add records to the given table, with row_ids and column_values having the same
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interpretation as in TableData or BulkAddRecords. It's used both for the initial loading of
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data, and for BulkAddRecords itself.
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"""
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table = self.tables[table_id]
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growto_size = (max(row_ids) + 1) if row_ids else 1
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# Create the new records.
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id_column = table.get_column('id')
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id_column.growto(growto_size)
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for row_id in row_ids:
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id_column.set(row_id, row_id)
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# Resize all columns to the full table size.
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table.grow_to_max()
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# Load the new values.
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for col_id, values in six.iteritems(column_values):
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column = table.get_column(col_id)
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column.growto(growto_size)
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for row_id, value in zip(row_ids, values):
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column.set(row_id, value)
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# Invalidate new records to cause the formula columns to get recomputed.
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self.invalidate_records(table_id, row_ids)
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def fetch_table(self, table_id, formulas=True, private=False, query=None):
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"""
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Returns TableData object representing all data in this table.
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"""
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table = self.tables[table_id]
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column_values = {}
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query_cols = []
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if query:
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query_cols = [(table.get_column(col_id), values) for (col_id, values) in six.iteritems(query)]
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row_ids = [r for r in table.row_ids
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if all((c.raw_get(r) in values) for (c, values) in query_cols)]
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for c in six.itervalues(table.all_columns):
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# pylint: disable=too-many-boolean-expressions
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if ((formulas or not c.is_formula())
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and (private or not c.is_private())
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and c.col_id != "id" and not column.is_virtual_column(c.col_id)):
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column_values[c.col_id] = [c.raw_get(r) for r in row_ids]
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return actions.TableData(table_id, row_ids, column_values)
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def fetch_table_schema(self):
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return self.gencode.get_user_text()
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def fetch_meta_tables(self, formulas=True):
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"""
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Returns {table_id: TableData} mapping for all metadata tables (those starting with '_grist_').
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Note the slight naming difference with load_meta_tables: that one expects just two
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extra-special tables, whereas fetch_meta_tables returns all special tables.
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"""
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return {table_id: self.fetch_table(table_id, formulas=formulas)
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for table_id in self.tables if table_id.startswith('_grist_')}
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def fetch_snapshot(self):
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"""
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Returns a full list of actions which when applied sequentially recreate the doc database to
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its current state.
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"""
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action_group = action_obj.ActionGroup()
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action_group.stored = self._get_snapshot_actions()
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return action_group
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def _get_snapshot_actions(self):
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"""
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Returns a list of action objects which recreate the document database when applied.
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"""
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schema_actions = schema.schema_create_actions()
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table_actions = [_get_table_actions(table) for table in self.docmodel.tables.all]
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record_actions = [
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self._get_record_actions(table_id)
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for (table_id,t) in six.iteritems(self.tables)
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if t.next_row_id() > 1
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]
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return schema_actions + table_actions + record_actions
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# Returns a BulkAddRecord action which can be used to add the currently existing data to an empty
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# version of the table with the given table_id.
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def _get_record_actions(self, table_id):
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table_data = self.fetch_table(table_id, formulas=False)
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return actions.BulkAddRecord(table_id, table_data.row_ids, table_data.columns)
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def find_col_from_values(self, values, n, opt_table_id=None):
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"""
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Returns a list of colRefs for columns whose values match a given list. The results are ordered
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from best to worst according to the number of matches of distinct values.
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If n is non-zero, limits the results to that number. If opt_table_id is given, search only
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that table for matching columns.
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"""
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start_time = time.time()
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# Exclude default values, since these will often result in matching new/incomplete columns.
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# If a value is unhashable, set() will fail, so we check for that.
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sample = set(v for v in values if isinstance(v, Hashable))
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matched_cols = []
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# If the column has no values, return
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if not sample:
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return []
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search_cols = (self.docmodel.get_table_rec(opt_table_id).columns
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if opt_table_id in self.tables else self.docmodel.columns.all)
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m = match_counter.MatchCounter(sample)
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# Iterates through each valid column in the document, counting matches.
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for c in search_cols:
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if (not gencode._is_special_table(c.tableId) and
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column.is_visible_column(c.colId) and
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not c.type.startswith('Ref')):
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table = self.tables[c.tableId]
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col = table.get_column(c.colId)
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matches = m.count_unique(col.raw_get(r) for r in itertools.islice(table.row_ids, 1000))
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if matches > 0:
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matched_cols.append((matches, c.id))
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# Sorts the matched columns by the matches, then select the best-matching columns
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matched_cols.sort(reverse=True)
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if n:
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matched_cols = matched_cols[:n]
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log.info('Found column from values in %.3fs' % (time.time() - start_time))
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return [c[1] for c in matched_cols]
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def assert_schema_consistent(self):
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"""
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Asserts that the internally-stored schema is equivalent to the schema as represented by the
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special tables of metadata.
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"""
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meta_tables = self.fetch_table('_grist_Tables')
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meta_columns = self.fetch_table('_grist_Tables_column')
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gen_schema = schema.build_schema(meta_tables, meta_columns)
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gen_schema_dicts = {k: (t.tableId, dict(t.columns))
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for k, t in six.iteritems(gen_schema)}
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cur_schema_dicts = {k: (t.tableId, dict(t.columns))
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for k, t in six.iteritems(self.schema)}
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if cur_schema_dicts != gen_schema_dicts:
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import pprint
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import difflib
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a = (pprint.pformat(cur_schema_dicts) + "\n").splitlines(True)
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b = (pprint.pformat(gen_schema_dicts) + "\n").splitlines(True)
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raise AssertionError("Internal schema different from that in metadata:\n" +
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"".join(difflib.unified_diff(a, b, fromfile="internal", tofile="metadata")))
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# Check there are no stray column records (they aren't picked up by schema diffs, but will
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# cause inconsistencies with future tables).
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# TODO: This inconsistency can be triggered by undo of an AddTable action if the table
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# acquired more columns in subsequent actions. We may want to check for similar situations
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# with other metadata, e.g. ViewSection fields, where they'd cause different symptoms.
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# (Or better ensure consistency by design by applying undo correctly, probably via rebase).
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valid_table_refs = set(meta_tables.row_ids)
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col_parent_ids = set(meta_columns.columns['parentId'])
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if col_parent_ids > valid_table_refs:
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collist = sorted(actions.transpose_bulk_action(meta_columns),
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key=lambda c: (c.parentId, c.parentPos))
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raise AssertionError("Internal schema inconsistent; extra columns in metadata:\n"
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+ "\n".join(' #%s %s' %
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(c.id, schema.SchemaColumn(c.colId, c.type, bool(c.isFormula), c.formula))
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for c in collist if c.parentId not in valid_table_refs))
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def dump_state(self):
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self.dep_graph.dump_graph()
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self.dump_recompute_map()
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|
|
|
def dump_recompute_map(self):
|
|
log.debug("Recompute map (%d nodes):" % len(self.recompute_map))
|
|
for node, dirty_rows in six.iteritems(self.recompute_map):
|
|
log.debug(" Node %s: %s" % (node, dirty_rows))
|
|
|
|
@contextlib.contextmanager
|
|
def open_compute_frame(self, node):
|
|
"""
|
|
Use as: `with open_compute_frame(node) as frame:`. This automatically maintains the stack of
|
|
ComputeFrames, pushing and popping reliably.
|
|
"""
|
|
frame = Engine.ComputeFrame(node)
|
|
self._compute_stack.append(frame)
|
|
try:
|
|
yield frame
|
|
finally:
|
|
self._compute_stack.pop()
|
|
|
|
def get_current_frame(self):
|
|
"""
|
|
Returns the compute frame currently being computed, or None if there isn't one.
|
|
"""
|
|
return self._compute_stack[-1] if self._compute_stack and self._compute_stack[-1].node else None
|
|
|
|
def _use_node(self, node, relation, row_ids=[]):
|
|
# This is used whenever a formula accesses any part of any record. It's hot code, and
|
|
# it's worth optimizing.
|
|
|
|
if self._compute_stack and self._compute_stack[-1].node:
|
|
# Add an edge to indicate that the node being computed depends on the node passed in.
|
|
# Note that during evaluation, we only *add* dependencies. We *remove* them by clearing them
|
|
# whenever ALL rows for a node are invalidated (on schema changes and reloads).
|
|
current_node = self._compute_stack[-1].node
|
|
edge = (current_node, node, relation)
|
|
if edge not in self._recompute_edge_set:
|
|
self.dep_graph.add_edge(*edge)
|
|
self._recompute_edge_set.add(edge)
|
|
|
|
# This check is not essential here, but is an optimization that saves cycles.
|
|
if self.recompute_map.get(node) is None:
|
|
return
|
|
|
|
self._recompute(node, row_ids)
|
|
|
|
def _pre_update(self):
|
|
"""
|
|
Called at beginning of _bring_all_up_to_date or _bring_lookups_up_to_date.
|
|
Makes sure cell change accumulation is reset.
|
|
"""
|
|
self._changes_map = OrderedDict()
|
|
self._recompute_done_map = {}
|
|
self._locked_cells = set()
|
|
self._is_node_exception_reported = set()
|
|
self._recompute_edge_set = set()
|
|
self._cell_required_error = None
|
|
|
|
def _post_update(self):
|
|
"""
|
|
Called at end of _bring_all_up_to_date or _bring_lookups_up_to_date.
|
|
Issues actions for any accumulated cell changes.
|
|
"""
|
|
for node, changes in six.iteritems(self._changes_map):
|
|
table = self.tables[node.table_id]
|
|
col = table.get_column(node.col_id)
|
|
# If there are changes, save them in out_actions.
|
|
if changes and not col.is_private():
|
|
self.out_actions.summary.add_changes(node.table_id, node.col_id, changes)
|
|
|
|
self._pre_update() # empty lists/sets/maps
|
|
|
|
def _update_loop(self, work_items, ignore_other_changes=False):
|
|
"""
|
|
Called to compute the specified cells, including any nested dependencies.
|
|
Consumes OrderError exceptions, and reacts to them with a strategy for
|
|
reordering cell evaluation. That strategy is currently simple:
|
|
* Maintain a stack of work item triplets. Each work item has:
|
|
- A node (table/column pair).
|
|
- A list of row_ids to compute (this can be None, meaning "all").
|
|
- A list of row_ids to "unlock" once finished.
|
|
* Until stack is empty, take a work item off the stack and attempt to
|
|
_recompute the specified rows of the specified node.
|
|
- If an OrderError is received, first check it is for a cell we
|
|
requested (_recompute will opportunistically try to compute
|
|
other cells we haven't asked for, and it is important for the
|
|
purposes of cycle detection to discount that).
|
|
- If so, "lock" that cell, push the current work item back on the
|
|
stack (remembering which cell to unlock later), and add a new
|
|
work item for the cell that threw the OrderError.
|
|
+ The "lock" serves only for cycle detection.
|
|
+ The order of stack placement means that the cell that threw
|
|
the OrderError will now be evaluated before the cell that
|
|
depends on it.
|
|
- If not, ignore the OrderError. If we actually need that cell,
|
|
We'll get back to it later as we work up the work_items stack.
|
|
* The _recompute method, as mentioned, will attempt to compute not
|
|
just the requested rows of a particular column, but any other dirty
|
|
cells in that column. This is an important optimization for the
|
|
common case of columns with non-self-referring dependencies.
|
|
"""
|
|
self._in_update_loop = True
|
|
while self.recompute_map:
|
|
self._recompute_done_counter = 0
|
|
self._expected_done_counter = 0
|
|
while work_items:
|
|
node, row_ids, locks = work_items.pop()
|
|
try:
|
|
self._recompute_step(node, require_rows=row_ids)
|
|
except OrderError as e:
|
|
# Need to schedule re-ordered evaluation
|
|
assert node == e.requiring_node
|
|
assert (not row_ids) or (e.requiring_row_id in row_ids)
|
|
# Put current work item back on stack, and don't dispose its locks
|
|
work_items.append(WorkItem(node, row_ids, locks))
|
|
locks = []
|
|
# Add a new work item for the cell we are following up, and lock
|
|
# it to forbid circular dependencies
|
|
lock = (node, e.requiring_row_id)
|
|
work_items.append(WorkItem(e.node, [e.row_id], [lock]))
|
|
self._locked_cells.add(lock)
|
|
# Discard any locks once work item is complete
|
|
for lock in locks:
|
|
if lock not in self._locked_cells:
|
|
# If cell is already unlocked, don't double-count it.
|
|
continue
|
|
self._locked_cells.discard(lock)
|
|
# Sanity check: make sure we've computed at least one more cell
|
|
self._expected_done_counter += 1
|
|
if self._recompute_done_counter < self._expected_done_counter:
|
|
raise Exception('data engine not making progress updating dependencies')
|
|
if ignore_other_changes:
|
|
# For _bring_lookups_up_to_date, we should only wait for the work items
|
|
# explicitly requested.
|
|
break
|
|
# Sanity check that we computed at least one cell.
|
|
if self.recompute_map and self._recompute_done_counter == 0:
|
|
raise Exception('data engine not making progress updating formulas')
|
|
# Figure out remaining work to do, maintaining classic Grist ordering.
|
|
nodes = sorted(self.recompute_map.keys(), reverse=True)
|
|
work_items = [WorkItem(node, None, []) for node in nodes]
|
|
self._in_update_loop = False
|
|
|
|
def _bring_all_up_to_date(self):
|
|
# Bring all nodes up to date. We iterate in sorted order of the keys so that the order is
|
|
# deterministic (which is helpful for tests in particular).
|
|
self._pre_update()
|
|
try:
|
|
# Figure out remaining work to do, maintaining classic Grist ordering.
|
|
nodes = sorted(self.recompute_map.keys(), reverse=True)
|
|
work_items = [WorkItem(node, None, []) for node in nodes]
|
|
self._update_loop(work_items)
|
|
# Check if any potentially unused LookupMaps are still unused, and if so, delete them.
|
|
for lookup_map in self._unused_lookups:
|
|
if self.dep_graph.remove_node_if_unused(lookup_map.node):
|
|
self.delete_column(lookup_map)
|
|
finally:
|
|
self._unused_lookups.clear()
|
|
self._post_update()
|
|
|
|
def _bring_lookups_up_to_date(self, triggering_doc_action):
|
|
# Just bring the lookup nodes up to date. This is part of a somewhat hacky solution in
|
|
# apply_doc_action: lookup nodes don't know exactly what depends on them until they are
|
|
# recomputed. So invalidating lookup nodes doesn't complete all invalidation; further
|
|
# invalidations may be generated in the course of recomputing the lookup nodes. So we force
|
|
# recomputation of lookup nodes to ensure that we see up-to-date results between applying doc
|
|
# actions.
|
|
#
|
|
# This matters for private formulas used internally; it isn't needed for external use, since
|
|
# all nodes are brought up to date before responding to a user action anyway.
|
|
#
|
|
# In addition, we expose the triggering doc_action so that lookupOrAddDerived can avoid adding
|
|
# a record to a derived table when the trigger itself is a change to the derived table. This
|
|
# currently only happens on undo, and is admittedly an ugly workaround.
|
|
self._pre_update()
|
|
try:
|
|
self._triggering_doc_action = triggering_doc_action
|
|
nodes = sorted(self.recompute_map.keys(), reverse=True)
|
|
nodes = [node for node in nodes if node.col_id.startswith('#lookup')]
|
|
work_items = [WorkItem(node, None, []) for node in nodes]
|
|
self._update_loop(work_items, ignore_other_changes=True)
|
|
finally:
|
|
self._triggering_doc_action = None
|
|
self._post_update()
|
|
|
|
def is_triggered_by_table_action(self, table_id):
|
|
# Workaround for lookupOrAddDerived that prevents AddRecord from being created when the
|
|
# trigger is itself an action for the same table. See comments for _bring_lookups_up_to_date.
|
|
a = self._triggering_doc_action
|
|
return a and getattr(a, 'table_id', None) == table_id
|
|
|
|
def bring_col_up_to_date(self, col_obj):
|
|
"""
|
|
Public interface to recompute a column if it is dirty. It also generates a calc or stored
|
|
action and adds it into self.out_actions object.
|
|
"""
|
|
self._pre_update()
|
|
try:
|
|
self._recompute_done_map.pop(col_obj.node, None)
|
|
self._recompute(col_obj.node)
|
|
finally:
|
|
self._post_update()
|
|
|
|
def get_formula_error(self, table_id, col_id, row_id):
|
|
"""
|
|
Returns an error message (traceback) for one concrete cell which user clicked.
|
|
It is sufficient in case when we want to get traceback for only one formula cell with error,
|
|
not recomputing the whole column and dependent columns as well. So it recomputes the formula
|
|
for this cell and returns error message with details.
|
|
"""
|
|
table = self.tables[table_id]
|
|
col = table.get_column(col_id)
|
|
checkpoint = self._get_undo_checkpoint()
|
|
try:
|
|
return self._recompute_one_cell(None, table, col, row_id)
|
|
finally:
|
|
# It is possible for formula evaluation to have side-effects that produce DocActions (e.g.
|
|
# lookupOrAddDerived() creates those). In case of get_formula_error(), these aren't fully
|
|
# processed (e.g. don't get applied to DocStorage), so it's important to reverse them.
|
|
self._undo_to_checkpoint(checkpoint)
|
|
|
|
def _recompute(self, node, row_ids=None):
|
|
"""
|
|
Make sure cells of a node are up to date, recomputing as necessary. Can optionally
|
|
be limited to a list of rows that are of interest.
|
|
"""
|
|
if self._in_update_loop:
|
|
# This is a nested evaluation. If there are in fact any cells to evaluate,
|
|
# this must result in an OrderError. We let engine._recompute_step
|
|
# take care of figuring this out.
|
|
self._recompute_step(node, allow_evaluation=False, require_rows=row_ids)
|
|
else:
|
|
# Sometimes _use_node is called from outside _update_loop. In this case,
|
|
# we start an _update_loop to compute whatever is required. Otherwise
|
|
# nested dependencies would not get computed.
|
|
self._update_loop([WorkItem(node, row_ids, [])], ignore_other_changes=True)
|
|
|
|
|
|
def _recompute_step(self, node, allow_evaluation=True, require_rows=None): # pylint: disable=too-many-statements
|
|
"""
|
|
Recomputes a node (i.e. column), evaluating the appropriate formula for the given rows
|
|
to get new values. Only columns whose .has_formula() is true should ever have invalidated rows
|
|
in recompute_map (this includes data columns with a default formula, for newly-added records).
|
|
|
|
If `allow_evaluation` is false, any time we would recompute a node, we instead throw
|
|
an OrderError exception. This is used to "flatten" computation - instead of evaluating
|
|
nested dependencies on the program stack, an external loop will evaluate them in an
|
|
unnested order. Remember that formulas may access other columns, and column access calls
|
|
engine._use_node, which calls _recompute to bring those nodes up to date.
|
|
|
|
Recompute records changes in _changes_map, which is used later to generate appropriate
|
|
BulkUpdateRecord actions, either calc (for formulas) or stored (for non-formula columns).
|
|
"""
|
|
|
|
dirty_rows = self.recompute_map.get(node, None)
|
|
if dirty_rows is None:
|
|
return
|
|
|
|
table = self.tables[node.table_id]
|
|
col = table.get_column(node.col_id)
|
|
assert col.has_formula(), "Engine._recompute: called on no-formula node %s" % (node,)
|
|
|
|
# Get a sorted list of row IDs, excluding deleted rows (they will sometimes end up in
|
|
# recompute_map) and rows already done (since _recompute_done_map got cleared).
|
|
if node not in self._recompute_done_map:
|
|
# Before starting to evaluate a formula, call reset_rows()
|
|
# on all relations with nodes we depend on. E.g. this is
|
|
# used for lookups, so that we can reset stored lookup
|
|
# information for rows that are about to get reevaluated.
|
|
self.dep_graph.reset_dependencies(node, dirty_rows)
|
|
self._recompute_done_map[node] = set()
|
|
|
|
exclude = self._recompute_done_map[node]
|
|
if dirty_rows == depend.ALL_ROWS:
|
|
dirty_rows = SortedSet(r for r in table.row_ids if r not in exclude)
|
|
self.recompute_map[node] = dirty_rows
|
|
require_rows = sorted(require_rows or [])
|
|
|
|
# Prevents dependency creation for non-formula nodes. A non-formula column may include a
|
|
# formula to eval for a newly-added record. Those shouldn't create dependencies.
|
|
formula_node = node if col.is_formula() else None
|
|
|
|
changes = None
|
|
cleaned = [] # this lists row_ids that can be removed from dirty_rows once we are no
|
|
# longer iterating on it.
|
|
with self.open_compute_frame(formula_node) as frame:
|
|
try:
|
|
require_count = len(require_rows)
|
|
for i, row_id in enumerate(itertools.chain(require_rows, dirty_rows)):
|
|
required = i < require_count or require_count == 0
|
|
if require_count and row_id not in dirty_rows:
|
|
# Nothing need be done for required rows that are already up to date.
|
|
continue
|
|
if row_id not in table.row_ids or row_id in exclude:
|
|
# We can declare victory for absent or excluded rows.
|
|
cleaned.append(row_id)
|
|
continue
|
|
if not allow_evaluation:
|
|
# We're not actually in a position to evaluate this cell, we need to just
|
|
# report that we needed an _update_loop will arrange for us to be called
|
|
# again in a better order.
|
|
if required:
|
|
msg = 'Cell value not available yet'
|
|
err = OrderError(msg, node, row_id)
|
|
if not self._cell_required_error:
|
|
# Cache the exception in case user consumes it or modifies it in their formula.
|
|
self._cell_required_error = OrderError(msg, node, row_id)
|
|
raise err
|
|
# For common-case formulas, all cells in a column are likely to fail in the same way,
|
|
# so don't bother trying more from this column until we've reordered.
|
|
return
|
|
try:
|
|
# We figure out if we've hit a cycle here. If so, we just let _recompute_on_cell
|
|
# know, so it can set the cell value appropriately and do some other bookkeeping.
|
|
cycle = required and (node, row_id) in self._locked_cells
|
|
value = self._recompute_one_cell(frame, table, col, row_id, cycle=cycle, node=node)
|
|
except OrderError as e:
|
|
if not required:
|
|
# We're out of order, but for a cell we were evaluating opportunistically.
|
|
# Don't throw an exception, since it could lead us off on a wild goose
|
|
# chase - let _update_loop focus on one path at a time.
|
|
return
|
|
# Keep track of why this cell was needed.
|
|
e.requiring_node = node
|
|
e.requiring_row_id = row_id
|
|
raise e
|
|
|
|
# Successfully evaluated a cell! Unlock it if it was locked, so other cells can
|
|
# use it without triggering a cyclic dependency error.
|
|
self._locked_cells.discard((node, row_id))
|
|
|
|
if isinstance(value, objtypes.RaisedException):
|
|
is_first = node not in self._is_node_exception_reported
|
|
if is_first:
|
|
self._is_node_exception_reported.add(node)
|
|
log.info(value.details)
|
|
value = objtypes.RaisedException(value.error) # strip out details after logging
|
|
|
|
# TODO: validation columns should be wrapped to always return True/False (catching
|
|
# exceptions), so that we don't need special handling here.
|
|
if column.is_validation_column_name(col.col_id):
|
|
value = (value in (True, None))
|
|
|
|
# Convert the value, and if needed, set, and include into the returned action.
|
|
value = col.convert(value)
|
|
previous = col.raw_get(row_id)
|
|
if not strict_equal(value, previous):
|
|
if not changes:
|
|
changes = self._changes_map.setdefault(node, [])
|
|
changes.append((row_id, previous, value))
|
|
col.set(row_id, value)
|
|
exclude.add(row_id)
|
|
cleaned.append(row_id)
|
|
self._recompute_done_counter += 1
|
|
# If no particular rows were requested, and we arrive here,
|
|
# that means we made it through the whole column! For long
|
|
# columns, it is worth deleting dirty_rows in one step rather
|
|
# than discarding one cell at a time.
|
|
if require_rows is None:
|
|
cleaned = []
|
|
dirty_rows = None
|
|
|
|
finally:
|
|
for row_id in cleaned:
|
|
# this modifies self.recompute_map[node], to which dirty_rows is a reference
|
|
dirty_rows.discard(row_id)
|
|
if not dirty_rows:
|
|
self.recompute_map.pop(node)
|
|
|
|
def _recompute_one_cell(self, frame, table, col, row_id, cycle=False, node=None):
|
|
"""
|
|
Recomputes an one formula cell and returns a value.
|
|
The value can be:
|
|
- the recomputed value in case there are no errors
|
|
- exception
|
|
- exception with details if flag include_details is set
|
|
"""
|
|
if frame:
|
|
frame.current_row_id = row_id
|
|
|
|
# Baffling, but keeping a reference to current generated "usercode" module protects against a
|
|
# seeming garbage-collection bug: if during formula evaluation the module gets regenerated
|
|
# (e.g. a side-effect causes a formula column to change to non-formula), the stale-module
|
|
# formula code that's still running will see None values in the usermodule's module-dictionary;
|
|
# just keeping this extra reference allows stale formulas to see valid values.
|
|
usercode_reference = self.gencode.usercode
|
|
|
|
checkpoint = self._get_undo_checkpoint()
|
|
record = table.Record(table, row_id, table._identity_relation)
|
|
try:
|
|
if cycle:
|
|
raise depend.CircularRefError("Circular Reference")
|
|
result = col.method(record, table.user_table)
|
|
if self._cell_required_error:
|
|
raise self._cell_required_error # pylint: disable=raising-bad-type
|
|
self.formula_tracer(col, record)
|
|
return result
|
|
except: # pylint: disable=bare-except
|
|
# Since col.method runs untrusted user code, we use a bare except to catch all
|
|
# exceptions (even those not derived from BaseException).
|
|
|
|
# Before storing the exception value, make sure there isn't an OrderError pending.
|
|
# If there is, we will raise it after undoing any side effects.
|
|
order_error = self._cell_required_error
|
|
|
|
# Otherwise, we use sys.exc_info to recover the raised exception object.
|
|
regular_error = sys.exc_info()[1] if not order_error else None
|
|
|
|
# It is possible for formula evaluation to have side-effects that produce DocActions (e.g.
|
|
# lookupOrAddDerived() creates those). If there is an error, undo any such side-effects.
|
|
self._undo_to_checkpoint(checkpoint)
|
|
|
|
# Now we can raise the order error, if there was one. Cell evaluation will be reordered
|
|
# in response.
|
|
if order_error:
|
|
self._cell_required_error = None
|
|
raise order_error # pylint: disable=raising-bad-type
|
|
|
|
self.formula_tracer(col, record)
|
|
|
|
include_details = (node not in self._is_node_exception_reported) if node else True
|
|
return objtypes.RaisedException(regular_error, include_details)
|
|
|
|
def convert_action_values(self, action):
|
|
"""
|
|
Given a BulkUpdateRecord or BulkAddRecord action, convert the values using the appropriate
|
|
Column objects, replacing them with the right-type value, alttext, or error objects.
|
|
"""
|
|
table_id, row_ids, column_values = action
|
|
table = self.tables[action.table_id]
|
|
new_values = {}
|
|
extra_actions = []
|
|
for col_id, values in six.iteritems(column_values):
|
|
col_obj = table.get_column(col_id)
|
|
values = [col_obj.convert(val) for val in values]
|
|
|
|
# If there are values for any PositionNumber columns, ensure PositionNumbers are ordered as
|
|
# intended but are all unique, which may require updating other positions.
|
|
nvalues, adjustments = col_obj.prepare_new_values(values,
|
|
action_summary=self.out_actions.summary)
|
|
if adjustments:
|
|
extra_actions.append(actions.BulkUpdateRecord(
|
|
action.table_id, [r for r,v in adjustments], {col_id: [v for r,v in adjustments]}))
|
|
|
|
new_values[col_id] = nvalues
|
|
|
|
if isinstance(action, (actions.BulkAddRecord, actions.ReplaceTableData)):
|
|
# Make sure we call prepare_new_values() for ALL columns when adding rows. The for-loop
|
|
# above does it for columns explicitly mentioned; this section does it for the other
|
|
# columns, using their default values as input to prepare_new_values().
|
|
ignore_data = isinstance(action, actions.ReplaceTableData)
|
|
for col_id, col_obj in six.iteritems(table.all_columns):
|
|
if col_id in column_values or column.is_virtual_column(col_id) or col_obj.is_formula():
|
|
continue
|
|
defaults = [col_obj.getdefault() for r in row_ids]
|
|
# We use defaults to get new values or adjustments. If we are replacing data, we'll make
|
|
# the adjustments without regard to the existing data.
|
|
nvalues, adjustments = col_obj.prepare_new_values(defaults, ignore_data=ignore_data,
|
|
action_summary=self.out_actions.summary)
|
|
if adjustments:
|
|
extra_actions.append(actions.BulkUpdateRecord(
|
|
action.table_id, [r for r,v in adjustments], {col_id: [v for r,v in adjustments]}))
|
|
if nvalues != defaults:
|
|
new_values[col_id] = nvalues
|
|
|
|
# Return action of the same type (e.g. BulkUpdateAction, BulkAddAction), but with new values,
|
|
# as well as any extra actions that were generated (as could happen for position adjustments).
|
|
return (type(action)(table_id, row_ids, new_values), extra_actions)
|
|
|
|
def trim_update_action(self, action):
|
|
"""
|
|
Takes a BulkUpdateAction, and returns a new BulkUpdateAction with only those rows that
|
|
actually cause any changes.
|
|
"""
|
|
table_id, row_ids, column_values = action
|
|
table = self.tables[action.table_id]
|
|
|
|
# Collect for each column the Column object and a list of new values.
|
|
cols = [(table.get_column(col_id), values) for (col_id, values) in six.iteritems(column_values)]
|
|
|
|
# In comparisons below, we rely here on Python's "==" operator to check for equality. After a
|
|
# type conversion, it may compare the new type to the old, e.g. 1 == 1.0 == True. It's
|
|
# important that such equality is acceptable also to JS and to DocStorage. So far, it seems
|
|
# just right.
|
|
|
|
# Find columns for which any value actually changed.
|
|
cols = [(col_obj, values) for (col_obj, values) in cols
|
|
if any(values[i] != col_obj.raw_get(row_id) for (i, row_id) in enumerate(row_ids))]
|
|
|
|
# Now find the indices of rows for which any value actually changed from what's in its Column.
|
|
row_subset = [i for i, row_id in enumerate(row_ids)
|
|
if any(values[i] != col_obj.raw_get(row_id) for (col_obj, values) in cols)]
|
|
|
|
# Create and return a new action with just the selected subset of rows.
|
|
return actions.BulkUpdateRecord(
|
|
action.table_id,
|
|
[row_ids[i] for i in row_subset],
|
|
{col_obj.col_id: [values[i] for i in row_subset]
|
|
for (col_obj, values) in cols}
|
|
)
|
|
|
|
def eval_user_code(self, src):
|
|
ret = self._repl.runsource(src)
|
|
self.gencode.usercode.__dict__.update(self._repl.locals)
|
|
return ret
|
|
|
|
def invalidate_records(self, table_id, row_ids=depend.ALL_ROWS, col_ids=None,
|
|
data_cols_to_recompute=frozenset()):
|
|
"""
|
|
Invalidate the records with the given row_ids. If col_ids is given, only those columns are
|
|
invalidated (otherwise all columns). If data_cols_to_recompute is given, then non-formula
|
|
col_ids that have an associated formula will get invalidated too, to cause recomputation.
|
|
|
|
Note that it's not just about formula columns; pure data columns need to cause invalidation of
|
|
formula columns that depend on them. Those data columns that have an associated formula may
|
|
additionally (typically on AddRecord) be themselves invalidated, to cause recomputation.
|
|
"""
|
|
table = self.tables[table_id]
|
|
columns = (table.all_columns.values()
|
|
if col_ids is None else [table.get_column(c) for c in col_ids])
|
|
for column in columns:
|
|
# If data_cols_to_recompute includes this column, compute its default formula. This
|
|
# flag is set on AddRecord and BulkAddRecord, when a default formula needs to be computed.
|
|
self.invalidate_column(column, row_ids, column.col_id in data_cols_to_recompute)
|
|
|
|
def invalidate_column(self, col_obj, row_ids=depend.ALL_ROWS, recompute_data_col=False):
|
|
# Normally, only formula columns use include_self (to recompute themselves). However, if
|
|
# recompute_data_col is set, default formulas will also be computed.
|
|
include_self = col_obj.is_formula() or (col_obj.has_formula() and recompute_data_col)
|
|
self.dep_graph.invalidate_deps(col_obj.node, row_ids, self.recompute_map,
|
|
include_self=include_self)
|
|
|
|
def rebuild_usercode(self):
|
|
"""
|
|
Compiles the usercode from the schema, and updates all tables and columns to match.
|
|
Also, keeps the locals in the repl in sync with the user code, so that the repl has access to
|
|
usercode and vice-versa.
|
|
"""
|
|
self.gencode.make_module(self.schema)
|
|
|
|
# Re-populate self.tables, reusing existing tables whenever possible.
|
|
old_tables = self.tables
|
|
|
|
self.tables = {}
|
|
for table_id, user_table in six.iteritems(self.gencode.usercode.__dict__):
|
|
if isinstance(user_table, table_module.UserTable):
|
|
self.tables[table_id] = (old_tables.get(table_id) or table_module.Table(table_id, self))
|
|
|
|
# Now update the table model for each table, and tie it to its UserTable object.
|
|
for table_id, table in six.iteritems(self.tables):
|
|
user_table = getattr(self.gencode.usercode, table_id)
|
|
self._update_table_model(table, user_table)
|
|
user_table._set_table_impl(table)
|
|
|
|
# For any tables that are gone, use self._update_table_model to clean them up.
|
|
for table_id, table in six.iteritems(old_tables):
|
|
if table_id not in self.tables:
|
|
self._update_table_model(table, None)
|
|
self._repl.locals.pop(table_id, None)
|
|
|
|
# Update docmodel with references to the updated metadata tables.
|
|
self.docmodel.update_tables()
|
|
|
|
# The order here is important to make sure that when we update the usercode,
|
|
# we don't overwrite with outdated usercode entries
|
|
self._repl.locals.update(self.gencode.usercode.__dict__)
|
|
self.gencode.usercode.__dict__.update(self._repl.locals)
|
|
|
|
# Update the context used for autocompletions.
|
|
self._autocomplete_context = AutocompleteContext(self.gencode.usercode.__dict__)
|
|
|
|
|
|
def _update_table_model(self, table, user_table):
|
|
"""
|
|
Updates the given Table object to match the given user_table (from usercode module). This
|
|
builds new columns as needed, and cleans up. To clean up state for a table getting removed,
|
|
pass in user_table of None.
|
|
"""
|
|
# Save the dict of columns before the update.
|
|
old_columns = table.all_columns.copy()
|
|
|
|
if user_table is None:
|
|
new_columns = {}
|
|
else:
|
|
# Update the table's model. This also builds new columns if needed.
|
|
table._rebuild_model(user_table)
|
|
new_columns = table.all_columns
|
|
|
|
added_col_ids = six.viewkeys(new_columns) - six.viewkeys(old_columns)
|
|
deleted_col_ids = six.viewkeys(old_columns) - six.viewkeys(new_columns)
|
|
|
|
# Invalidate the columns that got added and anything that depends on them.
|
|
if added_col_ids:
|
|
self.invalidate_records(table.table_id, col_ids=added_col_ids)
|
|
|
|
for col_id in deleted_col_ids:
|
|
self.invalidate_column(old_columns[col_id])
|
|
|
|
# Schedule deleted columns for clean-up.
|
|
for c in deleted_col_ids:
|
|
self.delete_column(old_columns[c])
|
|
|
|
if user_table is None:
|
|
for c in table.get_helper_columns():
|
|
self.delete_column(c)
|
|
|
|
|
|
def delete_column(self, col_obj):
|
|
# Remove the column from its table.
|
|
if col_obj.table_id in self.tables:
|
|
self.tables[col_obj.table_id].delete_column(col_obj)
|
|
|
|
# Invalidate anything that depends on the column being deleted. The column may be gone from
|
|
# the table itself, so we use invalidate_column directly.
|
|
self.invalidate_column(col_obj)
|
|
# Remove reference to the column from the recompute_map.
|
|
self.recompute_map.pop(col_obj.node, None)
|
|
# Mark the column to be destroyed at the end of applying this docaction.
|
|
self._gone_columns.append(col_obj)
|
|
|
|
|
|
def new_column_name(self, table):
|
|
"""
|
|
Invalidate anything that referenced unknown columns, in case the newly-added name fixes the
|
|
broken reference.
|
|
"""
|
|
self.dep_graph.invalidate_deps(table._new_columns_node, depend.ALL_ROWS, self.recompute_map,
|
|
include_self=False)
|
|
|
|
def mark_lookupmap_for_cleanup(self, lookup_map_column):
|
|
"""
|
|
Once a LookupMapColumn seems no longer used, it's added here. We'll check after recomputing
|
|
everything, and if still unused, will clean it up.
|
|
"""
|
|
self._unused_lookups.add(lookup_map_column)
|
|
|
|
def apply_user_actions(self, user_actions):
|
|
"""
|
|
Applies the list of user_actions. Returns an ActionGroup.
|
|
"""
|
|
# We currently recompute everything and send all calc actions back on every change. If clients
|
|
# only need a subset of data loaded, it would be better to filter calc actions, and
|
|
# include only those the clients care about. For side-effects, we might want to recompute
|
|
# everything, and only filter what we send.
|
|
|
|
self.out_actions = action_obj.ActionGroup()
|
|
|
|
checkpoint = self._get_undo_checkpoint()
|
|
try:
|
|
for user_action in user_actions:
|
|
self._schema_updated = False
|
|
self.out_actions.retValues.append(self._apply_one_user_action(user_action))
|
|
|
|
# If the UserAction touched the schema, check that it is now consistent with metadata.
|
|
if self._schema_updated:
|
|
self.assert_schema_consistent()
|
|
|
|
except Exception as e:
|
|
# Save full exception info, so that we can rethrow accurately even if undo also fails.
|
|
exc_info = sys.exc_info()
|
|
# If we get an exception, we should revert all changes applied so far, to keep things
|
|
# consistent internally as well as with the clients and database outside of the sandbox
|
|
# (which won't see any changes in case of an error).
|
|
log.info("Failed to apply useractions; reverting: %r" % (e,))
|
|
self._undo_to_checkpoint(checkpoint)
|
|
|
|
# Check schema consistency again. If this fails, something is really wrong (we tried to go
|
|
# back to a good state but failed). We'll just report it loudly.
|
|
try:
|
|
if self._schema_updated:
|
|
self.assert_schema_consistent()
|
|
except Exception:
|
|
log.error("Inconsistent schema after revert on failure: %s" % traceback.format_exc())
|
|
|
|
# Re-raise the original exception
|
|
# In Python 2, 'raise' raises the most recent exception,
|
|
# which may come from the try/except just above
|
|
# Python 3 keeps track of nested exceptions better
|
|
if six.PY2:
|
|
six.reraise(*exc_info)
|
|
else:
|
|
raise
|
|
|
|
# Note that recalculations and auto-removals get included after processing all useractions.
|
|
self._bring_all_up_to_date()
|
|
|
|
# Apply any triggered record removals. If anything does get removed, recalculate what's needed.
|
|
while self.docmodel.apply_auto_removes():
|
|
self._bring_all_up_to_date()
|
|
|
|
self.out_actions.flush_calc_changes()
|
|
self.out_actions.check_sanity()
|
|
return self.out_actions
|
|
|
|
def acl_split(self, action_group):
|
|
"""
|
|
Splits ActionGroups, as returned e.g. from apply_user_actions, by permissions. Returns a
|
|
single ActionBundle containing of all of the original action_groups.
|
|
"""
|
|
# pylint:disable=no-self-use
|
|
return acl.acl_read_split(action_group)
|
|
|
|
def _apply_one_user_action(self, user_action):
|
|
"""
|
|
Applies a single user action to the document, without running any triggered updates.
|
|
A UserAction is a tuple whose first element is the name of the action.
|
|
"""
|
|
log.debug("applying user_action %s" % (user_action,))
|
|
return getattr(self.user_actions, user_action.__class__.__name__)(*user_action)
|
|
|
|
def apply_doc_action(self, doc_action):
|
|
"""
|
|
Applies a doc action, which is a step of a user action. It is represented by an Action object
|
|
as defined in actions.py.
|
|
"""
|
|
#log.warn("Engine.apply_doc_action %s" % (doc_action,))
|
|
self._gone_columns = []
|
|
|
|
action_name = doc_action.__class__.__name__
|
|
saved_schema = None
|
|
if action_name in actions.schema_actions:
|
|
self._schema_updated = True
|
|
# Make a copy of the schema. If a bug causes a docaction to fail after modifying schema, we
|
|
# restore it, or we'll end up with mismatching schema and metadata.
|
|
saved_schema = schema.clone_schema(self.schema)
|
|
|
|
try:
|
|
getattr(self.doc_actions, action_name)(*doc_action)
|
|
except Exception:
|
|
# Save full exception info, so that we can rethrow accurately even if this clause also fails.
|
|
exc_info = sys.exc_info()
|
|
if saved_schema:
|
|
log.info("Restoring schema and usercode on exception")
|
|
self.schema = saved_schema
|
|
try:
|
|
self.rebuild_usercode()
|
|
except Exception:
|
|
log.error("Error rebuilding usercode after restoring schema: %s" % traceback.format_exc())
|
|
|
|
# Re-raise the original exception
|
|
# In Python 2, 'raise' raises the most recent exception,
|
|
# which may come from the try/except just above
|
|
# Python 3 keeps track of nested exceptions better
|
|
if six.PY2:
|
|
six.reraise(*exc_info)
|
|
else:
|
|
raise
|
|
|
|
# If any columns got deleted, destroy them to clear _back_references in other tables, and to
|
|
# force errors if anything still uses them. Also clear them from calc actions if needed.
|
|
for col in self._gone_columns:
|
|
# Calc actions may already be generated if the column deletion was triggered by auto-removal.
|
|
actions.prune_actions(self.out_actions.calc, col.table_id, col.col_id)
|
|
col.destroy()
|
|
|
|
# We normally recompute formulas before returning to the user; but some formulas are also used
|
|
# internally in-between applying doc actions. We have this workaround to ensure that those are
|
|
# up-to-date after each doc action. See more in comments for _bring_lookups_up_to_date.
|
|
# We check _compute_stack to avoid a recursive call (happens when a formula produces an
|
|
# action, as for derived/summary tables).
|
|
if not self._compute_stack:
|
|
self._bring_lookups_up_to_date(doc_action)
|
|
|
|
def autocomplete(self, txt, table_id):
|
|
"""
|
|
Return a list of suggested completions of the python fragment supplied.
|
|
"""
|
|
# replace $ with rec. and add a dummy rec object
|
|
tweaked_txt = DOLLAR_REGEX.sub(r'rec.', txt)
|
|
# convert a bare $ with nothing after it also
|
|
if txt == '$':
|
|
tweaked_txt = 'rec.'
|
|
table = self.tables[table_id]
|
|
|
|
context = self._autocomplete_context.get_context()
|
|
context['rec'] = table.sample_record
|
|
|
|
completer = rlcompleter.Completer(context)
|
|
results = []
|
|
at = 0
|
|
while True:
|
|
# Get a possible completion. Result will be None or "<tweaked_txt><extra suggestion>"
|
|
result = completer.complete(tweaked_txt, at)
|
|
at += 1
|
|
if not result:
|
|
break
|
|
if skipped_completions.search(result):
|
|
continue
|
|
results.append(self._autocomplete_context.process_result(result))
|
|
|
|
# If we changed the prefix (expanding the $ symbol) we now need to change it back.
|
|
if tweaked_txt != txt:
|
|
results = [txt + result[len(tweaked_txt):] for result in results]
|
|
# pylint:disable=unidiomatic-typecheck
|
|
results.sort(key=lambda r: r[0] if type(r) == tuple else r)
|
|
return results
|
|
|
|
def _get_undo_checkpoint(self):
|
|
"""
|
|
You may call _get_undo_checkpoint() and pass its result into _undo_to_checkpoint() to undo
|
|
DocActions saved since the first call; but only while in a single apply_user_actions() call.
|
|
"""
|
|
# We produce a tuple of lengths: one for each of the properties of out_actions ActionObj.
|
|
aobj = self.out_actions
|
|
return (len(aobj.calc), len(aobj.stored), len(aobj.undo), len(aobj.retValues))
|
|
|
|
def _undo_to_checkpoint(self, checkpoint):
|
|
"""
|
|
See _get_undo_checkpoint() above.
|
|
"""
|
|
# Check if out_actions ActionObj grew at all since _get_undo_checkpoint(). If yes, revert by
|
|
# applying any undo actions, and trim it back to original state (if we don't trim it, it will
|
|
# only grow further, with undo actions themselves getting applied as new doc actions).
|
|
new_checkpoint = self._get_undo_checkpoint()
|
|
if new_checkpoint != checkpoint:
|
|
(len_calc, len_stored, len_undo, len_ret) = checkpoint
|
|
undo_actions = self.out_actions.undo[len_undo:]
|
|
log.info("Reverting %d doc actions" % len(undo_actions))
|
|
self.user_actions.ApplyUndoActions([actions.get_action_repr(a) for a in undo_actions])
|
|
del self.out_actions.calc[len_calc:]
|
|
del self.out_actions.stored[len_stored:]
|
|
del self.out_actions.direct[len_stored:]
|
|
del self.out_actions.undo[len_undo:]
|
|
del self.out_actions.retValues[len_ret:]
|
|
|
|
|
|
# end
|