2020-07-27 18:57:36 +00:00
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import ast
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import contextlib
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import re
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import six
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import astroid
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import asttokens
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import textbuilder
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import logger
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log = logger.Logger(__name__, logger.INFO)
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DOLLAR_REGEX = re.compile(r'\$(?=[a-zA-Z_][a-zA-Z_0-9]*)')
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# For functions needing lazy evaluation, the slice for which arguments to wrap in a lambda.
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LAZY_ARG_FUNCTIONS = {
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'IF': slice(1, 3),
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'ISERR': slice(0, 1),
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'ISERROR': slice(0, 1),
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'IFERROR': slice(0, 1),
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}
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def make_formula_body(formula, default_value, assoc_value=None):
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"""
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Given a formula, returns a textbuilder.Builder object suitable to be the body of a function,
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with the formula transformed to replace `$foo` with `rec.foo`, and to insert `return` if
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appropriate. Assoc_value is associated with textbuilder.Text() to be returned by map_back_patch.
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"""
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if isinstance(formula, six.binary_type):
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formula = formula.decode('utf8')
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if not formula.strip():
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return textbuilder.Text('return ' + repr(default_value), assoc_value)
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formula_builder_text = textbuilder.Text(formula, assoc_value)
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# Start with a temporary builder, since we need to translate "$" before we can parse the code at
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# all (namely, we turn '$foo' into 'DOLLARfoo' first). Once we can parse the code, we'll create
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# a proper set of patches. Note that we initially translate into 'DOLLARfoo' rather than
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# 'rec.foo', so that the translated entity is a single token: this makes for more precisely
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# reported errors if there are any.
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tmp_patches = textbuilder.make_regexp_patches(formula, DOLLAR_REGEX, 'DOLLAR')
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tmp_formula = textbuilder.Replacer(formula_builder_text, tmp_patches)
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# Parse the formula into an abstract syntax tree (AST), catching syntax errors.
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try:
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atok = asttokens.ASTTokens(tmp_formula.get_text(), parse=True)
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except SyntaxError as e:
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return textbuilder.Text(_create_syntax_error_code(tmp_formula, formula, e))
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# Parse formula and generate error code on assignment to rec
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with use_inferences(InferRecAssignment):
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try:
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astroid.parse(tmp_formula.get_text())
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except SyntaxError as e:
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return textbuilder.Text(_create_syntax_error_code(tmp_formula, formula, e))
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# Once we have a tree, go through it and create a subset of the dollar patches that are actually
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# relevant. E.g. this is where we'll skip the "$foo" patches that appear in strings or comments.
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patches = []
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for node in ast.walk(atok.tree):
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if isinstance(node, ast.Name) and node.id.startswith('DOLLAR'):
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input_pos = tmp_formula.map_back_offset(node.first_token.startpos)
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m = DOLLAR_REGEX.match(formula, input_pos)
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# If there is no match, then we must have had a "DOLLARblah" identifier that didn't come
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# from translating a "$" prefix.
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if m:
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patches.append(textbuilder.make_patch(formula, m.start(0), m.end(0), 'rec.'))
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# Wrap arguments to the top-level "IF()" function into lambdas, for lazy evaluation. This is
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# to ensure it's not affected by an exception in the unused value, to match Excel behavior.
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if isinstance(node, ast.Call) and isinstance(node.func, ast.Name):
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lazy_args_slice = LAZY_ARG_FUNCTIONS.get(node.func.id)
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if lazy_args_slice:
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for arg in node.args[lazy_args_slice]:
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start, end = map(tmp_formula.map_back_offset, atok.get_text_range(arg))
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patches.append(textbuilder.make_patch(formula, start, start, 'lambda: ('))
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patches.append(textbuilder.make_patch(formula, end, end, ')'))
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# If the last statement is an expression that has its result unused (an ast.Expr node),
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# then insert a "return" keyword.
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last_statement = atok.tree.body[-1] if atok.tree.body else None
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if isinstance(last_statement, ast.Expr):
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input_pos = tmp_formula.map_back_offset(last_statement.first_token.startpos)
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patches.append(textbuilder.make_patch(formula, input_pos, input_pos, "return "))
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elif last_statement is None:
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# If we have an empty body (e.g. just a comment), add a 'pass' at the end.
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patches.append(textbuilder.make_patch(formula, len(formula), len(formula), '\npass'))
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# Apply the new set of patches to the original formula to get the real output.
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final_formula = textbuilder.Replacer(formula_builder_text, patches)
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# Try parsing again before returning it just in case we have new syntax errors. These are
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# possible in cases when a single token ('DOLLARfoo') is valid but an expression ('rec.foo') is
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# not, e.g. `foo($bar=1)` or `def $foo()`.
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try:
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atok = asttokens.ASTTokens(final_formula.get_text(), parse=True)
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except SyntaxError as e:
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return textbuilder.Text(_create_syntax_error_code(final_formula, formula, e))
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# We return the text-builder object whose .get_text() is the final formula.
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return final_formula
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def _create_syntax_error_code(builder, input_text, err):
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"""
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Returns the text for a function that raises the given SyntaxError and includes the offending
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code in a commented-out form. In addition, it translates the error's position from builder's
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output to input_text.
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"""
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output_ln = asttokens.LineNumbers(builder.get_text())
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input_ln = asttokens.LineNumbers(input_text)
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# A SyntaxError contains .lineno and .offset (1-based), which we need to translate to offset
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# within the transformed text, so that it can be mapped back to an offset in the original text,
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# and finally translated back into a line number and 1-based position to report to the user. An
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# example is that "$x*" is translated to "return x*", and the syntax error in the transformed
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# python code (line 2 offset 9) needs to be translated to be in line 2 offset 3.
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output_offset = output_ln.line_to_offset(err.lineno, err.offset - 1 if err.offset else 0)
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input_offset = builder.map_back_offset(output_offset)
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line, col = input_ln.offset_to_line(input_offset)
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2021-06-24 12:23:33 +00:00
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message = '%s on line %d col %d' % (err.args[0], line, col + 1)
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return "%s\nraise %s(%r)" % (
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2020-07-27 18:57:36 +00:00
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textbuilder.line_start_re.sub('# ', input_text.rstrip()),
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2021-06-24 12:23:33 +00:00
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type(err).__name__, message)
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2020-07-27 18:57:36 +00:00
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#----------------------------------------------------------------------
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def infer(node):
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try:
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return next(node.infer(), None)
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2021-06-22 15:12:25 +00:00
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except astroid.exceptions.InferenceError as e:
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2020-07-27 18:57:36 +00:00
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return "InferenceError on %r: %r" % (node, e)
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_lookup_method_names = ('lookupOne', 'lookupRecords')
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def _is_table(node):
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"""
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Return true if obj is a class defining a user table.
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"""
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2021-06-22 15:12:25 +00:00
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return (isinstance(node, astroid.nodes.ClassDef) and node.decorators and
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2020-07-27 18:57:36 +00:00
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node.decorators.nodes[0].as_string() == 'grist.UserTable')
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@contextlib.contextmanager
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def use_inferences(*inference_tips):
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transform_args = [(cls.node_class, astroid.inference_tip(cls.infer), cls.filter)
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for cls in inference_tips]
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for args in transform_args:
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astroid.MANAGER.register_transform(*args)
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yield
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for args in transform_args:
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astroid.MANAGER.unregister_transform(*args)
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class InferenceTip(object):
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"""
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Base class for inference tips. A derived class can implement the filter() and infer() class
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methods, and then register() will put that inference helper into use.
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"""
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node_class = None
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@classmethod
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def filter(cls, node):
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raise NotImplementedError()
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@classmethod
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def infer(cls, node, context):
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raise NotImplementedError()
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class InferReferenceColumn(InferenceTip):
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"""
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Inference helper to treat the return value of `grist.Reference("Foo")` as an instance of the
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table `Foo`.
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"""
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node_class = astroid.nodes.Call
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@classmethod
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def filter(cls, node):
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return (isinstance(node.func, astroid.nodes.Attribute) and
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node.func.as_string() in ('grist.Reference', 'grist.ReferenceList'))
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@classmethod
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def infer(cls, node, context=None):
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table_id = node.args[0].value
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table_class = next(node.root().igetattr(table_id))
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yield astroid.bases.Instance(table_class)
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def _get_formula_type(function_node):
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decorators = function_node.decorators.nodes if function_node.decorators else ()
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for dec in decorators:
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if (isinstance(dec, astroid.nodes.Call) and
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dec.func.as_string() == 'grist.formulaType'):
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return dec.args[0]
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return None
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class InferReferenceFormula(InferenceTip):
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"""
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Inference helper to treat functions decorated with `grist.formulaType(grist.Reference("Foo"))`
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as returning instances of table `Foo`.
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"""
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2021-06-22 15:12:25 +00:00
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node_class = astroid.nodes.FunctionDef
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2020-07-27 18:57:36 +00:00
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@classmethod
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def filter(cls, node):
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# All methods on tables are really used as properties.
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return _is_table(node.parent.frame())
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@classmethod
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def infer(cls, node, context=None):
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ftype = _get_formula_type(node)
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if ftype and InferReferenceColumn.filter(ftype):
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return InferReferenceColumn.infer(ftype, context)
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return node.infer_call_result(node.parent.frame(), context)
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class InferLookupReference(InferenceTip):
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"""
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Inference helper to treat the return value of `Table.lookupRecords(...)` as returning instances
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of table `Table`.
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"""
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node_class = astroid.nodes.Call
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@classmethod
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def filter(cls, node):
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return (isinstance(node.func, astroid.nodes.Attribute) and
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node.func.attrname in _lookup_method_names and
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_is_table(infer(node.func.expr)))
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@classmethod
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def infer(cls, node, context=None):
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yield astroid.bases.Instance(infer(node.func.expr))
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class InferLookupComprehension(InferenceTip):
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node_class = astroid.nodes.AssignName
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@classmethod
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def filter(cls, node):
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compr = node.parent
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if not isinstance(compr, astroid.nodes.Comprehension):
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return False
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if not isinstance(compr.iter, astroid.nodes.Call):
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return False
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return InferLookupReference.filter(compr.iter)
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@classmethod
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def infer(cls, node, context=None):
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return InferLookupReference.infer(node.parent.iter)
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class InferRecAssignment(InferenceTip):
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"""
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Inference helper to raise exception on assignment to `rec`.
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"""
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node_class = astroid.nodes.AssignName
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@classmethod
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def filter(cls, node):
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if node.name == 'rec':
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raise SyntaxError('Grist disallows assignment to the special variable "rec"',
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('<string>', node.lineno, node.col_offset, ""))
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@classmethod
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def infer(cls, node, context):
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raise NotImplementedError()
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#----------------------------------------------------------------------
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def parse_grist_names(builder):
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"""
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Returns a list of tuples (col_info, start_pos, table_id, col_id):
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col_info: (table_id, col_id) for the formula the name is found in. It is the value passed
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in by gencode.py to codebuilder.make_formula_body().
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start_pos: Index of the start character of the name in col_info.formula
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table_id: Parsed name when the tuple is for a table name; the name of the column's table
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when the tuple is for a column name.
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col_id: None when tuple is for a table name; col_id when the tuple is for a column name.
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"""
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code_text = builder.get_text()
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with use_inferences(InferReferenceColumn, InferReferenceFormula, InferLookupReference,
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InferLookupComprehension):
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atok = asttokens.ASTTokens(code_text, tree=astroid.builder.parse(code_text))
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def make_tuple(start, end, table_id, col_id):
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name = col_id or table_id
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assert end - start == len(name)
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patch = textbuilder.Patch(start, end, name, name)
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assert code_text[start:end] == name
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patch_source = builder.map_back_patch(patch)
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if not patch_source:
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return None
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in_text, in_value, in_patch = patch_source
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return (in_value, in_patch.start, table_id, col_id)
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parsed_names = []
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for node in asttokens.util.walk(atok.tree):
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if isinstance(node, astroid.nodes.Name):
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obj = infer(node)
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if _is_table(obj):
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start, end = atok.get_text_range(node)
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parsed_names.append(make_tuple(start, end, obj.name, None))
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elif isinstance(node, astroid.nodes.Attribute):
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obj = infer(node.expr)
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if isinstance(obj, astroid.bases.Instance):
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cls = obj._proxied
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if _is_table(cls):
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tok = node.last_token
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start, end = tok.startpos, tok.endpos
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parsed_names.append(make_tuple(start, end, cls.name, node.attrname))
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elif isinstance(node, astroid.nodes.Keyword):
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func = node.parent.func
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if isinstance(func, astroid.nodes.Attribute) and func.attrname in _lookup_method_names:
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obj = infer(func.expr)
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if _is_table(obj):
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tok = node.first_token
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start, end = tok.startpos, tok.endpos
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parsed_names.append(make_tuple(start, end, obj.name, node.arg))
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2021-06-22 15:12:25 +00:00
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return [name for name in parsed_names if name]
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