# Copyright 2008-2015 Nokia Networks
# Copyright 2016- Robot Framework Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Optional base classes for libraries and other extensions.
Module contents:
- :class:`DynamicLibrary` for libraries using the `dynamic library API`__.
- :class:`HybridLibrary` for libraries using the `hybrid library API`__.
- :class:`ListenerV2` for `listener interface version 2`__.
- :class:`ListenerV3` for `listener interface version 3`__.
- :class:`Parser` for `custom parsers`__. Also
:class:`~robot.running.builder.settings.TestDefaults` used in ``Parser``
type hints can be imported via this module if needed.
- Type definitions used by the aforementioned classes.
Main benefit of using these base classes is that editors can provide automatic
completion, documentation and type information. Their usage is not required.
Notice also that libraries typically use the static API and do not need any
base class.
.. note:: These classes are not exposed via the top level :mod:`robot.api`
package and need to imported via :mod:`robot.api.interfaces`.
.. note:: Using this module requires having the typing_extensions__ module
installed when using Python 3.6 or 3.7.
This module is new in Robot Framework 6.1.
__ http://robotframework.org/robotframework/latest/RobotFrameworkUserGuide.html#dynamic-library-api
__ http://robotframework.org/robotframework/latest/RobotFrameworkUserGuide.html#hybrid-library-api
__ http://robotframework.org/robotframework/latest/RobotFrameworkUserGuide.html#listener-version-2
__ http://robotframework.org/robotframework/latest/RobotFrameworkUserGuide.html#listener-version-3
__ http://robotframework.org/robotframework/latest/RobotFrameworkUserGuide.html#parser-interface
__ https://pypi.org/project/typing-extensions/
"""
import sys
from abc import ABC, abstractmethod
from pathlib import Path
from typing import Any, Dict, List, Optional, Sequence, Tuple, Union
# Need to use version check and not try/except to support Mypy's stubgen.
if sys.version_info >= (3, 8):
from typing import TypedDict
else:
try:
from typing_extensions import TypedDict
except ImportError:
raise ImportError("Using the 'robot.api.interfaces' module requires having "
"the 'typing_extensions' module installed with Python < 3.8.")
if sys.version_info >= (3, 10):
from types import UnionType
else:
UnionType = type
from robot import result, running
from robot.model import Message
from robot.running import TestDefaults, TestSuite
# Type aliases used by DynamicLibrary and HybridLibrary.
Name = str
PositArgs = List[Any]
NamedArgs = Dict[str, Any]
Documentation = str
Arguments = List[
Union[
str, # Name with possible default like `arg` or `arg=1`.
Tuple[str], # Name without a default like `('arg',)`.
Tuple[str, Any] # Name and default like `('arg', 1)`.
]
]
Type = Union[
type, # Actual type.
str, # Type name or alias.
UnionType, # Union syntax (e.g. `int | float`).
Tuple[Union[type, str], ...] # Tuple of types. Behaves like union.
]
Types = Union[
Dict[str, Type], # Types by name.
List[ # Types by position.
Union[
Type, # Type info.
None # No type info.
]
]
]
Tags = List[str]
Source = str
[docs]class DynamicLibrary(ABC):
"""Optional base class for libraries using the dynamic library API.
The dynamic library API makes it possible to dynamically specify
what keywords a library implements and run them by using
:meth:`get_keyword_names` and :meth:`run_keyword` methods, respectively.
In addition to that it has various optional methods for returning more
information about the implemented keywords to Robot Framework.
"""
[docs] @abstractmethod
def get_keyword_names(self) -> List[Name]:
"""Return names of the keywords this library implements.
:return: Keyword names as a list of strings.
``name`` passed to other methods is always in the same format as
returned by this method.
"""
raise NotImplementedError
[docs] @abstractmethod
def run_keyword(self, name: Name, args: PositArgs, named: NamedArgs) -> Any:
"""Execute the specified keyword using the given arguments.
:param name: Keyword name as a string.
:param args: Positional arguments as a list.
:param named: Named arguments as a dictionary.
:raises: Reporting FAIL or SKIP status.
:return: Keyword's return value.
Reporting status, logging, returning values, etc. is handled the same
way as with the normal static library API.
"""
raise NotImplementedError
[docs] def get_keyword_documentation(self, name: Name) -> Optional[Documentation]:
"""Optional method to return keyword documentation.
The first logical line of keyword documentation is shown in
the execution log under the executed keyword. The whole
documentation is shown in documentation generated by Libdoc.
:param name: Keyword name as a string.
:return: Documentation as a string oras ``None`` if there is no
documentation.
This method is also used to get the overall library documentation as
well as documentation related to importing the library. They are
got by calling this method with special names ``__intro__`` and
``__init__``, respectively.
"""
return None
[docs] def get_keyword_arguments(self, name: Name) -> Optional[Arguments]:
"""Optional method to return keyword's argument specification.
Returned information is used during execution for argument validation.
In addition to that, arguments are shown in documentation generated
by Libdoc.
:param name: Keyword name as a string.
:return: Argument specification using format explained below.
Argument specification defines what arguments the keyword accepts.
Returning ``None`` means that the keywords accepts any arguments.
Accepted arguments are returned as a list using these rules:
- Normal arguments are specified as a list of strings like
``['arg1', 'arg2']``. An empty list denotes that the keyword
accepts no arguments.
- Varargs must have a ``*`` prefix like ``['*numbers']``. There can
be only one varargs, and it must follow normal arguments.
- Arguments after varargs like ``['*items', 'arg']`` are considered
named-only arguments.
- If keyword does not accept varargs, a lone ``*`` can be used
a separator between normal and named-only arguments like
``['normal', '*', 'named']``.
- Kwargs must have a ``**`` prefix like [``**config``]. There can
be only one kwargs, and it must be last.
Both normal arguments and named-only arguments can have default values:
- Default values can be embedded to argument names so that they are
separated with the equal sign like ``name=default``. In this case
the default value type is always a string.
- Alternatively arguments and their default values can be represented
as two-tuples like ``('name', 'default')``. This allows non-string
default values and automatic argument conversion based on them.
- Arguments without default values can also be specified as tuples
containing just the name like ``('name',)``.
- With normal arguments, arguments with default values must follow
arguments without them. There is no such restriction with named-only
arguments.
"""
return None
[docs] def get_keyword_types(self, name: Name) -> Optional[Types]:
"""Optional method to return keyword's type specification.
Type information is used for automatic argument conversion during
execution. It is also shown in documentation generated by Libdoc.
:param name: Keyword name as a string.
:return: Type specification as a dictionary, as a list, or as ``None``
if type information is not known.
Type information can be mapped to arguments returned by
:meth:`get_keyword_names` either by names using a dictionary or
by position using a list. For example, if a keyword has argument
specification ``['arg', 'second']``, it would be possible to return
types both like ``{'arg': str, 'second': int}`` and ``[str, int]``.
Regardless of the approach that is used, it is not necessarily to
specify types for all arguments. When using a dictionary, some
arguments can be omitted altogether. When using a list, it is possible
to use ``None`` to mark that a certain argument does not have type
information and arguments at the end can be omitted altogether.
If is possible to specify that an argument has multiple possible types
by using unions like ``{'arg': Union[int, float]}`` or tuples like
``{'arg': (int, float)}``.
In addition to specifying types using classes, it is also possible
to use names or aliases like ``{'a': 'int', 'b': 'boolean'}``.
For an up-to-date list of supported types, names and aliases see
the User Guide.
"""
return None
[docs] def get_keyword_source(self, name: Name) -> Optional[Source]:
"""Optional method to return keyword's source path and line number.
Source information is used by IDEs to provide navigation from
keyword usage to implementation.
:param name: Keyword name as a string.
:return: Source as a string in format ``path:lineno`` or ``None``
if source is not known.
The general format to return the source is ``path:lineno`` like
``/example/Lib.py:42``. If the line number is not known, it is
possible to return only the path. If the keyword is in the same
file as the main library class, the path can be omitted and only
the line number returned like ``:42``.
The source information of the library itself is got automatically from
the imported library class. The library source path is used with all
keywords that do not return their own path.
"""
return None
[docs]class HybridLibrary(ABC):
"""Optional base class for libraries using the hybrid library API.
Hybrid library API makes it easy to specify what keywords a library
implements by using the :meth:`get_keyword_names` method. After getting
keyword names, Robot Framework uses ``getattr`` to get the actual keyword
methods exactly like it does when using the normal static library API.
Keyword name, arguments, documentation, tags, and so on are got directly
from the keyword method.
It is possible to implement keywords also outside the main library class.
In such cases the library needs to have a ``__getattr__`` method that
returns desired keyword methods.
"""
[docs] @abstractmethod
def get_keyword_names(self) -> List[Name]:
"""Return names of the implemented keyword methods as a list or strings.
Returned names must match names of the implemented keyword methods.
"""
raise NotImplementedError
# Attribute dictionary specifications used by ListenerV2.
[docs]class StartSuiteAttributes(TypedDict):
"""Attributes passed to listener v2 ``start_suite`` method.
See the User Guide for more information.
"""
id: str
longname: str
doc: str
metadata: dict
source: str
suites: List[str]
tests: List[str]
totaltests: int
starttime: str
[docs]class EndSuiteAttributes(StartSuiteAttributes):
"""Attributes passed to listener v2 ``end_suite`` method.
See the User Guide for more information.
"""
endtime: str
elapsedtime: int
status: str
statistics: str
message: str
[docs]class StartTestAttributes(TypedDict):
"""Attributes passed to listener v2 ``start_test`` method.
See the User Guide for more information.
"""
id: str
longname: str
originalname: str
doc: str
tags: List[str]
template: str
source: str
lineno: int
starttime: str
[docs]class EndTestAttributes(StartTestAttributes):
"""Attributes passed to listener v2 ``end_test`` method.
See the User Guide for more information.
"""
endtime: str
elapedtime: int
status: str
message: str
[docs]class OptionalKeywordAttributes(TypedDict, total=False):
"""Extra attributes passed to listener v2 ``start/end_keyword`` methods.
These attributes are included with control structures. For example, with
IF structures attributes include ``condition``.
"""
# FOR
variables: List[str]
flavor: str
values: List[str]
# ITERATION with FOR
variables: Dict[str, str]
# WHILE and IF
condition: str
# WHILE
limit: str
# EXCEPT
patterns: List[str]
pattern_type: str
variable: str
# RETURN
values: List[str]
[docs]class StartKeywordAttributes(OptionalKeywordAttributes):
"""Attributes passed to listener v2 ``start_keyword`` method.
See the User Guide for more information.
"""
type: str
kwname: str
libname: str
doc: str
args: List[str]
assign: List[str]
tags: List[str]
source: str
lineno: int
status: str
starttime: str
[docs]class EndKeywordAttributes(StartKeywordAttributes):
"""Attributes passed to listener v2 ``end_keyword`` method.
See the User Guide for more information.
"""
endtime: str
elapsedtime: int
[docs]class MessageAttributes(TypedDict):
"""Attributes passed to listener v2 ``log_message`` and ``messages`` methods.
See the User Guide for more information.
"""
message: str
level: str
timestamp: str
html: str
[docs]class LibraryAttributes(TypedDict):
"""Attributes passed to listener v2 ``library_import`` method.
See the User Guide for more information.
"""
args: List[str]
originalname: str
source: str
importer: Union[str, None]
[docs]class ResourceAttributes(TypedDict):
"""Attributes passed to listener v2 ``resource_import`` method.
See the User Guide for more information.
"""
source: str
importer: Union[str, None]
[docs]class VariablesAttributes(TypedDict):
"""Attributes passed to listener v2 ``variables_import`` method.
See the User Guide for more information.
"""
args: List[str]
source: str
importer: Union[str, None]
[docs]class ListenerV2:
"""Optional base class for listeners using the listener API v2."""
ROBOT_LISTENER_API_VERSION = 2
[docs] def start_suite(self, name: str, attributes: StartSuiteAttributes):
"""Called when a suite starts."""
[docs] def end_suite(self, name: str, attributes: EndSuiteAttributes):
"""Called when a suite end."""
[docs] def start_test(self, name: str, attributes: StartTestAttributes):
"""Called when a test or task starts."""
[docs] def end_test(self, name: str, attributes: EndTestAttributes):
"""Called when a test or task ends."""
[docs] def start_keyword(self, name: str, attributes: StartKeywordAttributes):
"""Called when a keyword or a control structure like IF starts.
The type of the started item is in ``attributes['type']``. Control
structures can contain extra attributes that are only relevant to them.
"""
[docs] def end_keyword(self, name: str, attributes: EndKeywordAttributes):
"""Called when a keyword or a control structure like IF ends.
The type of the started item is in ``attributes['type']``. Control
structures can contain extra attributes that are only relevant to them.
"""
[docs] def log_message(self, message: MessageAttributes):
"""Called when a normal log message are emitted.
The messages are typically logged by keywords, but also the framework
itself logs some messages. These messages end up to output.xml and
log.html.
"""
[docs] def message(self, message: MessageAttributes):
"""Called when framework's internal messages are emitted.
Only logged by the framework itself. These messages end up to the syslog
if it is enabled.
"""
[docs] def library_import(self, name: str, attributes: LibraryAttributes):
"""Called after a library has been imported."""
[docs] def resource_import(self, name: str, attributes: ResourceAttributes):
"""Called after a resource file has been imported."""
[docs] def variables_import(self, name: str, attributes: VariablesAttributes):
"""Called after a variable file has been imported."""
[docs] def output_file(self, path: str):
"""Called after the output file has been created.
At this point the file is guaranteed to be closed.
"""
[docs] def log_file(self, path: str):
"""Called after the log file has been created."""
[docs] def report_file(self, path: str):
"""Called after the report file has been created."""
[docs] def xunit_file(self, path: str):
"""Called after the xunit compatible output file has been created."""
[docs] def debug_file(self, path: str):
"""Called after the debug file has been created."""
[docs] def close(self):
"""Called when the whole execution ends.
With library listeners called when the library goes out of scope.
"""
[docs]class ListenerV3:
"""Optional base class for listeners using the listener API v3."""
ROBOT_LISTENER_API_VERSION = 3
[docs] def start_suite(self, data: running.TestSuite, result: result.TestSuite):
"""Called when a suite starts."""
[docs] def end_suite(self, data: running.TestSuite, result: result.TestSuite):
"""Called when a suite ends."""
[docs] def start_test(self, data: running.TestCase, result: result.TestCase):
"""Called when a test or task starts."""
[docs] def end_test(self, data: running.TestCase, result: result.TestCase):
"""Called when a test or ends starts."""
[docs] def log_message(self, message: Message):
"""Called when a normal log message are emitted.
The messages are typically logged by keywords, but also the framework
itself logs some messages. These messages end up to output.xml and
log.html.
"""
[docs] def message(self, message: Message):
"""Called when framework's internal messages are emitted.
Only logged by the framework itself. These messages end up to the syslog
if it is enabled.
"""
[docs] def output_file(self, path: str):
"""Called after the output file has been created.
At this point the file is guaranteed to be closed.
"""
[docs] def log_file(self, path: str):
"""Called after the log file has been created."""
[docs] def report_file(self, path: str):
"""Called after the report file has been created."""
[docs] def xunit_file(self, path: str):
"""Called after the xunit compatible output file has been created."""
[docs] def debug_file(self, path: str):
"""Called after the debug file has been created."""
[docs] def close(self):
"""Called when the whole execution ends.
With library listeners called when the library goes out of scope.
"""
[docs]class Parser(ABC):
"""Optional base class for custom parsers.
Parsers do not need to explicitly extend this class and in simple cases
it is possible to implement them as modules. Regardless how a parser is
implemented, it must have :attr:`extension` attribute and :meth:`parse`
method. The :meth:`parse_init` method is optional and only needed if
a parser supports parsing suite initialization files.
The mandatory :attr:`extension` attribute specifies what file extension or
extensions a parser supports. It can be set either as a class or instance
attribute, and it can be either a string or a sequence of strings. The
attribute can also be named ``EXTENSION``, which typically works better
when a parser is implemented as a module.
Example::
from pathlib import Path
from robot.api import TestSuite
from robot.api.interfaces import Parser, TestDefaults
class ExampleParser(Parser):
extension = '.example'
def parse(self, source: Path, defaults: TestDefaults) -> TestSuite:
suite = TestSuite(TestSuite.name_from_source(source), source=source)
# parse the source file and add tests to the created suite
return suite
The support for custom parsers is new in Robot Framework 6.1.
"""
extension: Union[str, Sequence[str]]
[docs] @abstractmethod
def parse(self, source: Path, defaults: TestDefaults) -> TestSuite:
"""Mandatory method for parsing suite files.
:param source: Path to the file to parse.
:param defaults: Default values set for test in init files.
The ``defaults`` argument is optional. It is possible to implement
this method also so that it accepts only ``source``.
"""
raise NotImplementedError
[docs] def parse_init(self, source: Path, defaults: TestDefaults) -> TestSuite:
"""Optional method for parsing suite initialization files.
:param source: Path to the file to parse.
:param defaults: Default values to used with tests in child suites.
The ``defaults`` argument is optional. It is possible to implement
this method also so that it accepts only ``source``.
If this method is not implemented, possible initialization files cause
an error.
"""
raise NotImplementedError