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# Copyright 2017 The Bazel Authors. All rights reserved.
#
# 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.
"""Unit testing support.
Unlike most Skylib files, this exports two modules: `unittest` which contains
functions to declare and define unit tests, and `asserts` which contains the
assertions used to within tests.
"""
load(":new_sets.bzl", new_sets = "sets")
load(":sets.bzl", "sets")
# The following function should only be called from WORKSPACE files and workspace macros.
def register_unittest_toolchains():
"""Registers the toolchains for unittest users."""
native.register_toolchains(
"@bazel_skylib//toolchains/unittest:cmd_toolchain",
"@bazel_skylib//toolchains/unittest:bash_toolchain",
)
TOOLCHAIN_TYPE = "@bazel_skylib//toolchains/unittest:toolchain_type"
_UnittestToolchainInfo = provider(
doc = "Execution platform information for rules in the bazel_skylib repository.",
fields = ["file_ext", "success_templ", "failure_templ", "join_on"],
)
def _unittest_toolchain_impl(ctx):
return [
platform_common.ToolchainInfo(
unittest_toolchain_info = _UnittestToolchainInfo(
file_ext = ctx.attr.file_ext,
success_templ = ctx.attr.success_templ,
failure_templ = ctx.attr.failure_templ,
join_on = ctx.attr.join_on,
),
),
]
unittest_toolchain = rule(
implementation = _unittest_toolchain_impl,
attrs = {
"failure_templ": attr.string(mandatory = True),
"file_ext": attr.string(mandatory = True),
"join_on": attr.string(mandatory = True),
"success_templ": attr.string(mandatory = True),
},
)
def _make(impl, attrs = None):
"""Creates a unit test rule from its implementation function.
Each unit test is defined in an implementation function that must then be
associated with a rule so that a target can be built. This function handles
the boilerplate to create and return a test rule and captures the
implementation function's name so that it can be printed in test feedback.
The optional `attrs` argument can be used to define dependencies for this
test, in order to form unit tests of rules.
An example of a unit test:
```
def _your_test(ctx):
env = unittest.begin(ctx)
# Assert statements go here
return unittest.end(env)
your_test = unittest.make(_your_test)
```
Recall that names of test rules must end in `_test`.
Args:
impl: The implementation function of the unit test.
attrs: An optional dictionary to supplement the attrs passed to the
unit test's `rule()` constructor.
Returns:
A rule definition that should be stored in a global whose name ends in
`_test`.
"""
# Derive the name of the implementation function for better test feedback.
# Starlark currently stringifies a function as "<function NAME>", so we use
# that knowledge to parse the "NAME" portion out. If this behavior ever
# changes, we'll need to update this.
# TODO(bazel-team): Expose a ._name field on functions to avoid this.
impl_name = str(impl)
impl_name = impl_name.partition("<function ")[-1]
impl_name = impl_name.rpartition(">")[0]
attrs = dict(attrs) if attrs else {}
attrs["_impl_name"] = attr.string(default = impl_name)
return rule(
impl,
attrs = attrs,
_skylark_testable = True,
test = True,
toolchains = [TOOLCHAIN_TYPE],
)
def _suite(name, *test_rules):
"""Defines a `test_suite` target that contains multiple tests.
After defining your test rules in a `.bzl` file, you need to create targets
from those rules so that `blaze test` can execute them. Doing this manually
in a BUILD file would consist of listing each test in your `load` statement
and then creating each target one by one. To reduce duplication, we recommend
writing a macro in your `.bzl` file to instantiate all targets, and calling
that macro from your BUILD file so you only have to load one symbol.
For the case where your unit tests do not take any (non-default) attributes --
i.e., if your unit tests do not test rules -- you can use this function to
create the targets and wrap them in a single test_suite target. In your
`.bzl` file, write:
```
def your_test_suite():
unittest.suite(
"your_test_suite",
your_test,
your_other_test,
yet_another_test,
)
```
Then, in your `BUILD` file, simply load the macro and invoke it to have all
of the targets created:
```
load("//path/to/your/package:tests.bzl", "your_test_suite")
your_test_suite()
```
If you pass _N_ unit test rules to `unittest.suite`, _N_ + 1 targets will be
created: a `test_suite` target named `${name}` (where `${name}` is the name
argument passed in here) and targets named `${name}_test_${i}`, where `${i}`
is the index of the test in the `test_rules` list, which is used to uniquely
name each target.
Args:
name: The name of the `test_suite` target, and the prefix of all the test
target names.
*test_rules: A list of test rules defines by `unittest.test`.
"""
test_names = []
for index, test_rule in enumerate(test_rules):
test_name = "%s_test_%d" % (name, index)
test_rule(name = test_name)
test_names.append(test_name)
native.test_suite(
name = name,
tests = [":%s" % t for t in test_names],
)
def _begin(ctx):
"""Begins a unit test.
This should be the first function called in a unit test implementation
function. It initializes a "test environment" that is used to collect
assertion failures so that they can be reported and logged at the end of the
test.
Args:
ctx: The Skylark context. Pass the implementation function's `ctx` argument
in verbatim.
Returns:
A test environment struct that must be passed to assertions and finally to
`unittest.end`. Do not rely on internal details about the fields in this
struct as it may change.
"""
return struct(ctx = ctx, failures = [])
def _end(env):
"""Ends a unit test and logs the results.
This must be called before the end of a unit test implementation function so
that the results are reported.
Args:
env: The test environment returned by `unittest.begin`.
"""
tc = env.ctx.toolchains[TOOLCHAIN_TYPE].unittest_toolchain_info
testbin = env.ctx.actions.declare_file(env.ctx.label.name + tc.file_ext)
if env.failures:
cmd = tc.failure_templ % tc.join_on.join(env.failures)
else:
cmd = tc.success_templ
env.ctx.actions.write(
output = testbin,
content = cmd,
is_executable = True,
)
return [DefaultInfo(executable = testbin)]
def _fail(env, msg):
"""Unconditionally causes the current test to fail.
Args:
env: The test environment returned by `unittest.begin`.
msg: The message to log describing the failure.
"""
full_msg = "In test %s: %s" % (env.ctx.attr._impl_name, msg)
print(full_msg)
env.failures.append(full_msg)
def _assert_true(
env,
condition,
msg = "Expected condition to be true, but was false."):
"""Asserts that the given `condition` is true.
Args:
env: The test environment returned by `unittest.begin`.
condition: A value that will be evaluated in a Boolean context.
msg: An optional message that will be printed that describes the failure.
If omitted, a default will be used.
"""
if not condition:
_fail(env, msg)
def _assert_false(
env,
condition,
msg = "Expected condition to be false, but was true."):
"""Asserts that the given `condition` is false.
Args:
env: The test environment returned by `unittest.begin`.
condition: A value that will be evaluated in a Boolean context.
msg: An optional message that will be printed that describes the failure.
If omitted, a default will be used.
"""
if condition:
_fail(env, msg)
def _assert_equals(env, expected, actual, msg = None):
"""Asserts that the given `expected` and `actual` values are equal.
Args:
env: The test environment returned by `unittest.begin`.
expected: The expected value of some computation.
actual: The actual value returned by some computation.
msg: An optional message that will be printed that describes the failure.
If omitted, a default will be used.
"""
if expected != actual:
expectation_msg = 'Expected "%s", but got "%s"' % (expected, actual)
if msg:
full_msg = "%s (%s)" % (msg, expectation_msg)
else:
full_msg = expectation_msg
_fail(env, full_msg)
def _assert_set_equals(env, expected, actual, msg = None):
"""Asserts that the given `expected` and `actual` sets are equal.
Args:
env: The test environment returned by `unittest.begin`.
expected: The expected set resulting from some computation.
actual: The actual set returned by some computation.
msg: An optional message that will be printed that describes the failure.
If omitted, a default will be used.
"""
if type(actual) != type(depset()) or not sets.is_equal(expected, actual):
expectation_msg = "Expected %r, but got %r" % (expected, actual)
if msg:
full_msg = "%s (%s)" % (msg, expectation_msg)
else:
full_msg = expectation_msg
_fail(env, full_msg)
def _assert_new_set_equals(env, expected, actual, msg = None):
"""Asserts that the given `expected` and `actual` sets are equal.
Args:
env: The test environment returned by `unittest.begin`.
expected: The expected set resulting from some computation.
actual: The actual set returned by some computation.
msg: An optional message that will be printed that describes the failure.
If omitted, a default will be used.
"""
if not new_sets.is_equal(expected, actual):
expectation_msg = "Expected %r, but got %r" % (expected, actual)
if msg:
full_msg = "%s (%s)" % (msg, expectation_msg)
else:
full_msg = expectation_msg
_fail(env, full_msg)
asserts = struct(
equals = _assert_equals,
false = _assert_false,
set_equals = _assert_set_equals,
new_set_equals = _assert_new_set_equals,
true = _assert_true,
)
unittest = struct(
make = _make,
suite = _suite,
begin = _begin,
end = _end,
fail = _fail,
)