mirror of
https://github.com/gristlabs/grist-core.git
synced 2024-10-27 20:44:07 +00:00
9fffb491f9
Summary: Adds a Python function `REQUEST` which makes an HTTP GET request. Behind the scenes it: - Raises a special exception to stop trying to evaluate the current cell and just keep the existing value. - Notes the request arguments which will be returned by `apply_user_actions`. - Makes the actual request in NodeJS, which sends back the raw response data in a new action `RespondToRequests` which reevaluates the cell(s) that made the request. - Wraps the response data in a class which mimics the `Response` class of the `requests` library. In certain cases, this asynchronous flow doesn't work and the sandbox will instead synchronously call an exported JS method: - When reevaluating a single cell to get a formula error, the request is made synchronously. - When a formula makes multiple requests, the earlier responses are retrieved synchronously from files which store responses as long as needed to complete evaluating formulas. See https://grist.slack.com/archives/CL1LQ8AT0/p1653399747810139 Test Plan: Added Python and nbrowser tests. Reviewers: georgegevoian Reviewed By: georgegevoian Subscribers: paulfitz, dsagal Differential Revision: https://phab.getgrist.com/D3429
750 lines
22 KiB
Python
750 lines
22 KiB
Python
# -*- coding: UTF-8 -*-
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# pylint: disable=unused-argument
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from __future__ import absolute_import
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import datetime
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import hashlib
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import json
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import math
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import numbers
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import re
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import chardet
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import six
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import column
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import docmodel
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from functions import date # pylint: disable=import-error
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from functions.unimplemented import unimplemented
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from objtypes import CellError
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from usertypes import AltText # pylint: disable=import-error
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from records import Record, RecordSet
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@unimplemented
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def ISBLANK(value):
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"""
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Returns whether a value refers to an empty cell. It isn't implemented in Grist. To check for an
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empty string, use `value == ""`.
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"""
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raise NotImplementedError()
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def ISERR(value):
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"""
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Checks whether a value is an error. In other words, it returns true
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if using `value` directly would raise an exception.
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NOTE: Grist implements this by automatically wrapping the argument to use lazy evaluation.
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A more Pythonic approach to checking for errors is:
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```
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try:
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... value ...
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except Exception, err:
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... do something about the error ...
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```
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For example:
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>>> ISERR("Hello")
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False
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More tests:
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>>> ISERR(lambda: (1/0.1))
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False
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>>> ISERR(lambda: (1/0.0))
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True
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>>> ISERR(lambda: "test".bar())
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True
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>>> ISERR(lambda: "test".upper())
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False
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>>> ISERR(lambda: AltText("A"))
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False
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>>> ISERR(lambda: float('nan'))
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False
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>>> ISERR(lambda: None)
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False
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"""
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return lazy_value_or_error(value) is _error_sentinel
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def ISERROR(value):
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"""
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Checks whether a value is an error or an invalid value. It is similar to `ISERR`, but also
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returns true for an invalid value such as NaN or a text value in a Numeric column.
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NOTE: Grist implements this by automatically wrapping the argument to use lazy evaluation.
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>>> ISERROR("Hello")
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False
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>>> ISERROR(AltText("fail"))
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True
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>>> ISERROR(float('nan'))
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True
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More tests:
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>>> ISERROR(AltText(""))
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True
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>>> [ISERROR(v) for v in [0, None, "", "Test", 17.0]]
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[False, False, False, False, False]
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>>> ISERROR(lambda: (1/0.1))
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False
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>>> ISERROR(lambda: (1/0.0))
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True
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>>> ISERROR(lambda: "test".bar())
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True
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>>> ISERROR(lambda: "test".upper())
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False
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>>> ISERROR(lambda: AltText("A"))
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True
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>>> ISERROR(lambda: float('nan'))
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True
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>>> ISERROR(lambda: None)
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False
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"""
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return is_error(lazy_value_or_error(value))
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def ISLOGICAL(value):
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"""
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Checks whether a value is `True` or `False`.
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>>> ISLOGICAL(True)
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True
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>>> ISLOGICAL(False)
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True
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>>> ISLOGICAL(0)
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False
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>>> ISLOGICAL(None)
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False
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>>> ISLOGICAL("Test")
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False
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"""
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return isinstance(value, bool)
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def ISNA(value):
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"""
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Checks whether a value is the error `#N/A`.
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>>> ISNA(float('nan'))
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True
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>>> ISNA(0.0)
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False
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>>> ISNA('text')
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False
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>>> ISNA(float('-inf'))
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False
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"""
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return isinstance(value, float) and math.isnan(value)
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def ISNONTEXT(value):
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"""
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Checks whether a value is non-textual.
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>>> ISNONTEXT("asdf")
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False
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>>> ISNONTEXT("")
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False
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>>> ISNONTEXT(AltText("text"))
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False
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>>> ISNONTEXT(17.0)
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True
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>>> ISNONTEXT(None)
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True
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>>> ISNONTEXT(datetime.date(2011, 1, 1))
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True
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"""
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return not ISTEXT(value)
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def ISNUMBER(value):
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"""
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Checks whether a value is a number.
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>>> ISNUMBER(17)
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True
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>>> ISNUMBER(-123.123423)
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True
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>>> ISNUMBER(False)
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True
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>>> ISNUMBER(float('nan'))
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True
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>>> ISNUMBER(float('inf'))
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True
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>>> ISNUMBER('17')
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False
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>>> ISNUMBER(None)
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False
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>>> ISNUMBER(datetime.date(2011, 1, 1))
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False
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More tests:
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>>> ISNUMBER(AltText("text"))
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False
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>>> ISNUMBER('')
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False
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"""
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return isinstance(value, numbers.Number)
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def ISREF(value):
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"""
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Checks whether a value is a table record.
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For example, if a column `person` is of type Reference to the `People` table,
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then `ISREF($person)` is `True`.
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Similarly, `ISREF(People.lookupOne(name=$name))` is `True`. For any other type of value,
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`ISREF()` would evaluate to `False`.
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>>> ISREF(17)
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False
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>>> ISREF("Roger")
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False
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"""
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return isinstance(value, Record)
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def ISREFLIST(value):
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"""
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Checks whether a value is a [`RecordSet`](#recordset),
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the type of values in Reference List columns.
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For example, if a column `people` is of type Reference List to the `People` table,
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then `ISREFLIST($people)` is `True`.
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Similarly, `ISREFLIST(People.lookupRecords(name=$name))` is `True`. For any other type of value,
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`ISREFLIST()` would evaluate to `False`.
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>>> ISREFLIST(17)
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False
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>>> ISREFLIST("Roger")
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False
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"""
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return isinstance(value, RecordSet)
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def ISTEXT(value):
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"""
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Checks whether a value is text.
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>>> ISTEXT("asdf")
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True
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>>> ISTEXT("")
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True
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>>> ISTEXT(AltText("text"))
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True
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>>> ISTEXT(17.0)
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False
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>>> ISTEXT(None)
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False
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>>> ISTEXT(datetime.date(2011, 1, 1))
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False
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"""
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return isinstance(value, (six.string_types, AltText))
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# Regexp for matching email. See ISEMAIL for justification.
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_email_regexp = re.compile(
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r"""
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^\w # Start with an alphanumeric character
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[\w%+/='-]* (\.[\w%+/='-]+)* # Elsewhere allow also a few other special characters
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# But no two consecutive periods
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@
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([A-Za-z0-9] # Each part of hostname must start with alphanumeric
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([A-Za-z0-9-]*[A-Za-z0-9])?\. # May have dashes inside, but end in alphanumeric
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)+
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[A-Za-z]{2,6}$ # Restrict top-level domain to length {2,6}. Google seems
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# to use a whitelist for TLDs longer than 2 characters.
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""", re.UNICODE | re.VERBOSE)
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# Regexp for matching hostname part of URLs (see also ISURL). Duplicates part of _email_regexp.
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_hostname_regexp = re.compile(
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r"""^
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([A-Za-z0-9] # Each part of hostname must start with alphanumeric
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([A-Za-z0-9-]*[A-Za-z0-9])?\. # May have dashes inside, but end in alphanumeric
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)+
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[A-Za-z]{2,6}$ # Restrict top-level domain to length {2,6}. Google seems
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""", re.VERBOSE)
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def ISEMAIL(value):
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u"""
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Returns whether a value is a valid email address.
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Note that checking email validity is not an exact science. The technical standard considers many
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email addresses valid that are not used in practice, and would not be considered valid by most
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users. Instead, we follow Google Sheets implementation, with some differences, noted below.
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>>> ISEMAIL("Abc.123@example.com")
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True
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>>> ISEMAIL("Bob_O-Reilly+tag@example.com")
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True
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>>> ISEMAIL("John Doe")
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False
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>>> ISEMAIL("john@aol...com")
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False
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More tests:
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>>> ISEMAIL("Abc@example.com") # True, True
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True
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>>> ISEMAIL("Abc.123@example.com") # True, True
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True
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>>> ISEMAIL("foo@bar.com") # True, True
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True
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>>> ISEMAIL("asdf@com.zt") # True, True
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True
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>>> ISEMAIL("Bob_O-Reilly+tag@example.com") # True, True
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True
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>>> ISEMAIL("john@server.department.company.com") # True, True
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True
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>>> ISEMAIL("asdf@mail.ru") # True, True
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True
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>>> ISEMAIL("fabio@foo.qwer.COM") # True, True
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True
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>>> ISEMAIL("user+mailbox/department=shipping@example.com") # False, True
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True
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>>> ISEMAIL(u"user+mailbox/department=shipping@example.com") # False, True
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True
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>>> ISEMAIL("customer/department=shipping@example.com") # False, True
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True
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>>> ISEMAIL("Bob_O'Reilly+tag@example.com") # False, True
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True
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>>> ISEMAIL(u"фыва@mail.ru") # False, True
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True
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>>> ISEMAIL("my@baddash.-.com") # True, False
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False
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>>> ISEMAIL("my@baddash.-a.com") # True, False
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False
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>>> ISEMAIL("my@baddash.b-.com") # True, False
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False
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>>> ISEMAIL("john@-.com") # True, False
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False
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>>> ISEMAIL("fabio@disapproved.solutions") # False, False
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False
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>>> ISEMAIL("!def!xyz%abc@example.com") # False, False
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False
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>>> ISEMAIL("!#$%&'*+-/=?^_`.{|}~@example.com") # False, False
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False
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>>> ISEMAIL(u"伊昭傑@郵件.商務") # False, False
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False
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>>> ISEMAIL(u"राम@मोहन.ईन्फो") # False, Fale
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False
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>>> ISEMAIL(u"юзер@екзампл.ком") # False, False
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False
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>>> ISEMAIL(u"θσερ@εχαμπλε.ψομ") # False, False
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False
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>>> ISEMAIL(u"葉士豪@臺網中心.tw") # False, False
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False
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>>> ISEMAIL(u"jeff@臺網中心.tw") # False, False
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False
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>>> ISEMAIL(u"葉士豪@臺網中心.台灣") # False, False
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False
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>>> ISEMAIL(u"jeff葉@臺網中心.tw") # False, False
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False
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>>> ISEMAIL("my.name@domain.com") # False, False
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False
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>>> ISEMAIL("my.name@domain.com") # False, False
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False
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>>> ISEMAIL("my@.leadingdot.com") # False, False
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False
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>>> ISEMAIL("my@..leadingfwdot.com") # False, False
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False
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>>> ISEMAIL("my@..twodots.com") # False, False
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False
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>>> ISEMAIL("my@twodots..com") # False, False
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False
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>>> ISEMAIL(".leadingdot@domain.com") # False, False
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False
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>>> ISEMAIL("..twodots@domain.com") # False, False
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False
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>>> ISEMAIL("twodots..here@domain.com") # False, False
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False
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>>> ISEMAIL("me@⒈wouldbeinvalid.com") # False, False
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False
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>>> ISEMAIL("Foo Bar <a+2asdf@qwer.bar.com>") # False, False
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False
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>>> ISEMAIL("Abc\\@def@example.com") # False, False
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False
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>>> ISEMAIL("foo@bar@google.com") # False, False
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False
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>>> ISEMAIL("john@aol...com") # False, False
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False
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>>> ISEMAIL("x@ทีเอชนิค.ไทย") # False, False
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False
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>>> ISEMAIL("asdf@mail") # False, False
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False
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>>> ISEMAIL("example@良好Mail.中国") # False, False
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False
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"""
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return bool(_email_regexp.match(value))
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_url_regexp = re.compile(
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r"""^
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((ftp|http|https|gopher|mailto|news|telnet|aim)://)?
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(\w+@)? # Allow 'user@' part, esp. useful for mailto: URLs.
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([A-Za-z0-9] # Each part of hostname must start with alphanumeric
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([A-Za-z0-9-]*[A-Za-z0-9])?\. # May have dashes inside, but end in alphanumeric
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)+
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[A-Za-z]{2,6} # Restrict top-level domain to length {2,6}. Google seems
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# to use a whitelist for TLDs longer than 2 characters.
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([/?][-\w!#$%&'()*+,./:;=?@~]*)?$ # Notably, this excludes <, >, and ".
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""", re.VERBOSE)
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def ISURL(value):
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"""
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Checks whether a value is a valid URL. It does not need to be fully qualified, or to include
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"http://" and "www". It does not follow a standard, but attempts to work similarly to ISURL in
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Google Sheets, and to return True for text that is likely a URL.
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Valid protocols include ftp, http, https, gopher, mailto, news, telnet, and aim.
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>>> ISURL("http://www.getgrist.com")
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True
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>>> ISURL("https://foo.com/test_(wikipedia)#cite-1")
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True
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>>> ISURL("mailto://user@example.com")
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True
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>>> ISURL("http:///a")
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False
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More tests:
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>>> ISURL("http://www.google.com")
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True
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>>> ISURL("www.google.com/")
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True
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>>> ISURL("google.com")
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True
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>>> ISURL("http://a.b-c.de")
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True
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>>> ISURL("a.b-c.de")
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True
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>>> ISURL("http://j.mp/---")
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True
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>>> ISURL("ftp://foo.bar/baz")
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True
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>>> ISURL("https://foo.com/blah_(wikipedia)#cite-1")
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True
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>>> ISURL("mailto://user@google.com")
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True
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>>> ISURL("http://user@www.google.com")
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True
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>>> ISURL("http://foo.com/!#$%25&'()*+,-./=?@_~")
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True
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>>> ISURL("http://../")
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False
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>>> ISURL("http://??/")
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False
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>>> ISURL("a.-b.cd")
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False
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>>> ISURL("http://foo.bar?q=Spaces should be encoded ")
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False
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>>> ISURL("//")
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False
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>>> ISURL("///a")
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False
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>>> ISURL("http:///a")
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False
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>>> ISURL("bar://www.google.com")
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False
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>>> ISURL("http:// shouldfail.com")
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False
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>>> ISURL("ftps://foo.bar/")
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False
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>>> ISURL("http://-error-.invalid/")
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False
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>>> ISURL("http://0.0.0.0")
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False
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>>> ISURL("http://.www.foo.bar/")
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False
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>>> ISURL("http://.www.foo.bar./")
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False
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>>> ISURL("example.com/file[/].html")
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False
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>>> ISURL("http://example.com/file[/].html")
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False
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>>> ISURL("http://mw1.google.com/kml-samples/gp/seattle/gigapxl/$[level]/r$[y]_c$[x].jpg")
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False
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>>> ISURL("http://foo.com/>")
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False
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"""
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value = value.strip()
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if ' ' in value: # Disallow spaces inside value.
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return False
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return bool(_url_regexp.match(value))
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def N(value):
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"""
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Returns the value converted to a number. True/False are converted to 1/0. A date is converted to
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Excel-style serial number of the date. Anything else is converted to 0.
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>>> N(7)
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7
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>>> N(7.1)
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7.1
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>>> N("Even")
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0
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>>> N("7")
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0
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>>> N(True)
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1
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>>> N(datetime.datetime(2011, 4, 17))
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40650.0
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"""
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if ISNUMBER(value):
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return value
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if isinstance(value, datetime.date):
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return date.DATE_TO_XL(value)
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return 0
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def CURRENT_CONVERSION(rec):
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"""
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Internal function used by Grist during column type conversions. Not available for use in
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formulas.
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"""
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return rec.gristHelper_Converted
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def NA():
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"""
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Returns the "value not available" error, `#N/A`.
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>>> math.isnan(NA())
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True
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"""
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return float('nan')
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|
||
@unimplemented
|
||
def TYPE(value):
|
||
"""
|
||
Returns a number associated with the type of data passed into the function. This is not
|
||
implemented in Grist. Use `isinstance(value, type)` or `type(value)`.
|
||
"""
|
||
raise NotImplementedError()
|
||
|
||
@unimplemented
|
||
def CELL(info_type, reference):
|
||
"""
|
||
Returns the requested information about the specified cell. This is not implemented in Grist
|
||
"""
|
||
raise NotImplementedError()
|
||
|
||
|
||
def PEEK(func):
|
||
"""
|
||
Evaluates the given expression without creating dependencies
|
||
or requiring that referenced values are up to date, using whatever value it finds in a cell.
|
||
This is useful for preventing circular reference errors, particularly in trigger formulas.
|
||
|
||
For example, if the formula for `A` depends on `$B` and the formula for `B` depends on `$A`,
|
||
then normally this would raise a circular reference error because each value needs to be
|
||
calculated before the other. But if `A` uses `PEEK($B)` then it will simply get the value
|
||
already stored in `$B` without requiring that `$B` is first calculated to the latest value.
|
||
Therefore `A` will be calculated first, and `B` can use `$A` without problems.
|
||
"""
|
||
engine = docmodel.global_docmodel._engine
|
||
engine._peeking = True
|
||
try:
|
||
return func()
|
||
finally:
|
||
engine._peeking = False
|
||
|
||
|
||
def RECORD(record_or_list, dates_as_iso=False, expand_refs=0):
|
||
"""
|
||
Returns a Python dictionary with all fields in the given record. If a list of records is given,
|
||
returns a list of corresponding Python dictionaries.
|
||
|
||
If dates_as_iso is set, Date and DateTime values are converted to string using ISO 8601 format.
|
||
|
||
If expand_refs is set to 1 or higher, Reference values are replaced with a RECORD representation
|
||
of the referenced record, expanding the given number of levels.
|
||
|
||
Error values present in cells of the record are replaced with None value, and a special key of
|
||
"_error_" gets added containing the error messages for those cells. For example:
|
||
`{"Ratio": None, "_error_": {"Ratio": "ZeroDivisionError: integer division or modulo by zero"}}`
|
||
|
||
Note that care is needed to avoid circular references when using RECORD(), since it creates a
|
||
dependency on every cell in the record. In case of RECORD(rec), the cell containing this call
|
||
will be omitted from the resulting dictionary.
|
||
|
||
For example:
|
||
```
|
||
RECORD($Person)
|
||
RECORD(rec)
|
||
RECORD(People.lookupOne(First_Name="Alice"))
|
||
RECORD(People.lookupRecords(Department="HR"))
|
||
```
|
||
"""
|
||
if isinstance(record_or_list, Record):
|
||
return _prepare_record_dict(record_or_list, dates_as_iso=dates_as_iso, expand_refs=expand_refs)
|
||
|
||
try:
|
||
records = list(record_or_list)
|
||
assert all(isinstance(r, Record) for r in records)
|
||
except Exception:
|
||
raise ValueError('RECORD() requires a Record or an iterable of Records')
|
||
|
||
return [_prepare_record_dict(r, dates_as_iso=dates_as_iso, expand_refs=expand_refs)
|
||
for r in records]
|
||
|
||
|
||
def _prepare_record_dict(record, dates_as_iso=False, expand_refs=0):
|
||
table_id = record._table.table_id
|
||
docmodel = record._table._engine.docmodel
|
||
columns = docmodel.get_table_rec(table_id).columns
|
||
current_node = record._table._engine._current_node
|
||
|
||
result = {'id': int(record)}
|
||
errors = {}
|
||
for col in columns:
|
||
col_id = col.colId
|
||
# Skip helper columns.
|
||
if not column.is_visible_column(col_id):
|
||
continue
|
||
|
||
# Avoid trying to access the cell being evaluated, since cycles get detected even if the
|
||
# CircularRef exception is caught. TODO This is hacky, and imperfect. If another column
|
||
# references a column containing the RECORD(rec) call, CircularRefError will still happen.
|
||
if current_node == (table_id, col_id):
|
||
continue
|
||
|
||
try:
|
||
val = getattr(record, col_id)
|
||
if dates_as_iso and isinstance(val, datetime.date):
|
||
val = val.isoformat()
|
||
elif expand_refs and isinstance(val, (Record, RecordSet)):
|
||
# Reduce expand_refs levels.
|
||
if val:
|
||
val = RECORD(val, dates_as_iso=dates_as_iso, expand_refs=expand_refs - 1)
|
||
else:
|
||
val = None
|
||
result[col_id] = val
|
||
except Exception as e:
|
||
result[col_id] = None
|
||
while isinstance(e, CellError):
|
||
# The extra information from CellError is redundant here
|
||
e = e.error # pylint: disable=no-member
|
||
errors[col_id] = "%s: %s" % (type(e).__name__, str(e))
|
||
|
||
if errors:
|
||
result["_error_"] = errors
|
||
return result
|
||
|
||
|
||
# Unique sentinel value to represent that a lazy value evaluates with an exception.
|
||
_error_sentinel = object()
|
||
|
||
def lazy_value_or_error(value):
|
||
"""
|
||
Evaluates a value like lazy_value(), but returns _error_sentinel on exception.
|
||
"""
|
||
try:
|
||
return value() if callable(value) else value
|
||
except Exception:
|
||
return _error_sentinel
|
||
|
||
def is_error(value):
|
||
"""
|
||
Checks whether a value is an invalid value or _error_sentinel.
|
||
"""
|
||
return ((value is _error_sentinel)
|
||
or isinstance(value, AltText)
|
||
or (isinstance(value, float) and math.isnan(value)))
|
||
|
||
|
||
@unimplemented # exclude from autocomplete while in beta
|
||
def REQUEST(url, params=None, headers=None):
|
||
# Makes a GET HTTP request with an API similar to `requests.get`.
|
||
# Actually jumps through hoops internally to make the request asynchronously (usually)
|
||
# while feeling synchronous to the formula writer.
|
||
|
||
# Requests are identified by a string key in various places.
|
||
# The same arguments should produce the same key so the request is only made once.
|
||
args = dict(url=url, params=params, headers=headers)
|
||
args_json = json.dumps(args, sort_keys=True)
|
||
key = hashlib.sha256(args_json.encode()).hexdigest()
|
||
|
||
# This may either return the raw response data or it may raise a special exception
|
||
# to delegate the request and reevaluate the formula later.
|
||
response_dict = docmodel.global_docmodel._engine._requesting(key, args)
|
||
|
||
if "error" in response_dict:
|
||
# Indicates a complete failure to make the request, such as a connection problem.
|
||
# An unsuccessful status code like 404 or 500 doesn't raise this error.
|
||
raise HTTPError(response_dict["error"])
|
||
|
||
return Response(**response_dict)
|
||
|
||
|
||
class HTTPError(Exception):
|
||
pass
|
||
|
||
|
||
class Response(object):
|
||
"""
|
||
Similar to the Response class from the `requests` library.
|
||
"""
|
||
def __init__(self, content, status, statusText, headers, encoding):
|
||
self.content = content # raw bytes
|
||
self.status_code = status # e.g. 404
|
||
self.reason = statusText # e.g. "Not Found"
|
||
self.headers = CaseInsensitiveDict(headers)
|
||
self.encoding = encoding or self.apparent_encoding
|
||
|
||
@property
|
||
def text(self):
|
||
return self.content.decode(self.encoding)
|
||
|
||
def json(self, **kwargs):
|
||
return json.loads(self.text, **kwargs)
|
||
|
||
@property
|
||
def ok(self):
|
||
return self.status_code < 400
|
||
|
||
def raise_for_status(self):
|
||
if not self.ok:
|
||
raise HTTPError("Request failed with status %s" % self.status_code)
|
||
|
||
@property
|
||
def apparent_encoding(self):
|
||
return chardet.detect(self.content)["encoding"]
|
||
|
||
def close(self):
|
||
pass # nothing to do
|
||
|
||
|
||
class CaseInsensitiveDict(dict):
|
||
"""
|
||
Similar to dict but treats all keys (which must be strings) case-insensitively,
|
||
e.g. `d["foo"]` and `d["FOO"]` are equivalent.
|
||
"""
|
||
def __init__(self, *args, **kwargs):
|
||
dict.__init__(self, *args, **kwargs)
|
||
for k in list(self):
|
||
# Convert key to lowercase
|
||
self[k] = dict.pop(self, k)
|
||
|
||
def update(self, E=None, **F):
|
||
dict.update(self.__class__(E or {}))
|
||
dict.update(self.__class__(**F))
|
||
|
||
|
||
def _forward_dict_method(name):
|
||
# Replace method 'name' where the first argument is a key with a version that lowercases the key
|
||
def method(self, key, *args, **kwargs):
|
||
return getattr(dict, name)(self, key.lower(), *args, **kwargs)
|
||
return method
|
||
|
||
for _name in "__getitem__ __setitem__ __delitem__ __contains__ get setdefault pop has_key".split():
|
||
setattr(CaseInsensitiveDict, _name, _forward_dict_method(_name))
|