Exemple #1
0
    def leave_BinaryOperation(
        self, original_node: cst.BinaryOperation, updated_node: cst.BinaryOperation
    ) -> cst.BaseExpression:
        expr_key = "expr"
        extracts = m.extract(
            original_node,
            m.BinaryOperation(
                left=m.MatchIfTrue(_match_simple_string),
                operator=m.Modulo(),
                right=m.SaveMatchedNode(
                    m.MatchIfTrue(_gen_match_simple_expression(self.module)), expr_key,
                ),
            ),
        )

        if extracts:
            expr = extracts[expr_key]
            parts = []
            simple_string = cst.ensure_type(original_node.left, cst.SimpleString)
            innards = simple_string.raw_value.replace("{", "{{").replace("}", "}}")
            tokens = innards.split("%s")
            token = tokens[0]
            if len(token) > 0:
                parts.append(cst.FormattedStringText(value=token))
            expressions = (
                [elm.value for elm in expr.elements]
                if isinstance(expr, cst.Tuple)
                else [expr]
            )
            escape_transformer = EscapeStringQuote(simple_string.quote)
            i = 1
            while i < len(tokens):
                if i - 1 >= len(expressions):
                    # the %-string doesn't come with same number of elements in tuple
                    return original_node
                try:
                    parts.append(
                        cst.FormattedStringExpression(
                            expression=cast(
                                cst.BaseExpression,
                                expressions[i - 1].visit(escape_transformer),
                            )
                        )
                    )
                except Exception:
                    return original_node
                token = tokens[i]
                if len(token) > 0:
                    parts.append(cst.FormattedStringText(value=token))
                i += 1
            start = f"f{simple_string.prefix}{simple_string.quote}"
            return cst.FormattedString(
                parts=parts, start=start, end=simple_string.quote
            )

        return original_node
 def visit_BinaryOperation(self, node: cst.BinaryOperation) -> None:
     if (m.matches(
             node,
             m.BinaryOperation(left=m.SimpleString(), operator=m.Modulo()))
             # SimpleString can be bytes and fstring don't support bytes.
             # https://www.python.org/dev/peps/pep-0498/#no-binary-f-strings
             and isinstance(
                 cst.ensure_type(node.left,
                                 cst.SimpleString).evaluated_value, str)):
         self.report(node)
 def visit_BinaryOperation(self, node: cst.BinaryOperation) -> None:
     if not self.logging_stack:
         return
     if m.matches(
         node,
         m.BinaryOperation(
             left=m.OneOf(m.SimpleString(), m.ConcatenatedString()),
             operator=m.Modulo(),
         ),
     ):
         self.report(node)
Exemple #4
0
    def visit_BinaryOperation(self, node: cst.BinaryOperation) -> None:
        expr_key = "expr"
        extracts = m.extract(
            node,
            m.BinaryOperation(
                left=m.MatchIfTrue(_match_simple_string),
                operator=m.Modulo(),
                right=m.SaveMatchedNode(
                    m.MatchIfTrue(
                        _gen_match_simple_expression(
                            self.context.wrapper.module)),
                    expr_key,
                ),
            ),
        )

        if extracts:
            expr = extracts[expr_key]
            parts = []
            simple_string = cst.ensure_type(node.left, cst.SimpleString)
            innards = simple_string.raw_value.replace("{",
                                                      "{{").replace("}", "}}")
            tokens = innards.split("%s")
            token = tokens[0]
            if len(token) > 0:
                parts.append(cst.FormattedStringText(value=token))
            expressions = ([elm.value for elm in expr.elements] if isinstance(
                expr, cst.Tuple) else [expr])
            escape_transformer = EscapeStringQuote(simple_string.quote)
            i = 1
            while i < len(tokens):
                if i - 1 >= len(expressions):
                    # Only generate warning for cases where %-string not comes with same number of elements in tuple
                    self.report(node)
                    return
                try:
                    parts.append(
                        cst.FormattedStringExpression(expression=cast(
                            cst.BaseExpression,
                            expressions[i - 1].visit(escape_transformer),
                        )))
                except Exception:
                    self.report(node)
                    return
                token = tokens[i]
                if len(token) > 0:
                    parts.append(cst.FormattedStringText(value=token))
                i += 1
            start = f"f{simple_string.prefix}{simple_string.quote}"
            replacement = cst.FormattedString(parts=parts,
                                              start=start,
                                              end=simple_string.quote)
            self.report(node, replacement=replacement)
        elif m.matches(
                node,
                m.BinaryOperation(
                    left=m.SimpleString(),
                    operator=m.Modulo())) and isinstance(
                        cst.ensure_type(
                            node.left, cst.SimpleString).evaluated_value, str):
            self.report(node)