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https://github.com/mdw-go/testing
A set of ergonomic test helpers.
https://github.com/mdw-go/testing
Last synced: 22 days ago
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A set of ergonomic test helpers.
- Host: GitHub
- URL: https://github.com/mdw-go/testing
- Owner: mdw-go
- License: mit
- Created: 2021-05-27T06:24:09.000Z (over 3 years ago)
- Default Branch: main
- Last Pushed: 2024-10-19T06:43:19.000Z (about 1 month ago)
- Last Synced: 2024-10-20T10:23:53.108Z (29 days ago)
- Language: Go
- Size: 186 KB
- Stars: 1
- Watchers: 3
- Forks: 0
- Open Issues: 0
-
Metadata Files:
- Readme: README.md
- License: LICENSE.md
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README
# github.com/mdw-go/testing
package should // import "github.com/mdw-go/testing/should"
Package should
This package strives to make it easy, even fun, for software
developers to produce > a quick, sure, and repeatable proof that
every element of the code works as it should. (See [The Programmer's
Oath](http://blog.cleancoder.com/uncle-bob/2015/11/18/TheProgrammersOath.html))
The simplest way is by combining the So function with the many provided
assertions, such as should.Equal:
package whatever
import (
"log"
"testing"
"github.com/mdw-go/testing/should"
)
func Test(t *testing.T) {
should.So(t, 1, should.Equal, 1)
}
This package also implement an xUnit-style test runner, which is based on the
following packages:
- github.com/stretchr/testify/suite(https://pkg.go.dev/github.com/stretchr/testify/suite)
- github.com/smartystreets/gunit(https://pkg.go.dev/github.com/smartystreets/gunit)
For those using an IDE by JetBrains, you may find the following "live template"
helpful:
func Test$NAME$Suite(t *testing.T) {
should.Run(&$NAME$Suite{T: should.New(t)}, should.Options.UnitTests())
}
type $NAME$Suite struct {
*should.T
}
func (this *$NAME$Suite) Setup() {
}
func (this *$NAME$Suite) Test$END$() {
}
From a test method like the one in the template above, simply use the embedded
So method:
func (this TheSuite) TestSomething() {
this.So(1, should.Equal, 1)
}
Happy testing!
VARIABLES
var (
ErrExpectedCountInvalid = errors.New("expected count invalid")
ErrTypeMismatch = errors.New("type mismatch")
ErrKindMismatch = errors.New("kind mismatch")
ErrAssertionFailure = errors.New("assertion failure")
)
var NOT negated
NOT (a singleton) constrains all negated assertions to their own namespace.
FUNCTIONS
func BeChronological(actual any, expected ...any) error
BeChronological asserts whether actual is a []time.Time and whether the
values are in chronological order.
func BeEmpty(actual any, expected ...any) error
BeEmpty uses reflection to verify that len(actual) == 0.
func BeFalse(actual any, expected ...any) error
BeFalse verifies that actual is the boolean false value.
func BeGreaterThan(actual any, EXPECTED ...any) error
BeGreaterThan verifies that actual is greater than expected. Both actual and
expected must be strings or numeric in type.
func BeGreaterThanOrEqualTo(actual any, expected ...any) error
BeGreaterThanOrEqualTo verifies that actual is less than or equal to
expected. Both actual and expected must be strings or numeric in type.
func BeIn(actual any, expected ...any) error
BeIn determines whether actual is a member of expected[0]. It defers to
Contain.
func BeLessThan(actual any, EXPECTED ...any) error
BeLessThan verifies that actual is less than expected. Both actual and
expected must be strings or numeric in type.
func BeLessThanOrEqualTo(actual any, expected ...any) error
BeLessThanOrEqualTo verifies that actual is less than or equal to expected.
Both actual and expected must be strings or numeric in type.
func BeNil(actual any, expected ...any) error
BeNil verifies that actual is the nil value.
func BeTrue(actual any, expected ...any) error
BeTrue verifies that actual is the boolean true value.
func Contain(actual any, expected ...any) error
Contain determines whether actual contains expected[0]. The actual value may
be a map, array, slice, or string:
- In the case of maps the expected value is assumed to be a map key.
- In the case of slices and arrays the expected value is assumed to be a
member.
- In the case of strings the expected value may be a rune or substring.
func EndWith(actual any, expected ...any) error
EndWith verifies that actual ends with expected[0]. The actual value may be
an array, slice, or string.
func Equal(actual any, EXPECTED ...any) error
Equal verifies that the actual value is equal to the expected value. It uses
reflect.DeepEqual in most cases, but also compares numerics regardless of
specific type and compares time.Time values using the time.Equal method.
func HappenAfter(actual any, expected ...any) error
HappenAfter ensures that the first time value happens after the second.
func HappenBefore(actual any, expected ...any) error
HappenBefore ensures that the first time value happens before the second.
func HappenOn(actual any, expected ...any) error
HappenOn ensures that two time values happen at the same instant. See the
time.Time.Equal method for the details. This function defers to Equal to do
the work.
func HappenWithin(actual any, expected ...any) error
HappenWithin ensures that the first time value happens within a specified
duration of the other time value. The actual value should be a time.Time.
The first expected value should be a time.Duration. The second expected
value should be a time.Time.
func HaveLength(actual any, expected ...any) error
HaveLength uses reflection to verify that len(actual) == 0.
func Panic(actual any, expected ...any) (err error)
Panic invokes the func() provided as actual and recovers from any panic.
It returns an error if actual() does not result in a panic.
func Run(fixture any, options ...Option)
Run accepts a fixture with Test* methods and optional setup/teardown
methods and executes the suite. Fixtures must be struct types which embed a
*suite.T. Assuming a fixture struct with test methods 'Test1' and 'Test2'
execution would proceed as follows:
1. fixture.SetupSuite()
2. fixture.Setup()
3. fixture.Test1()
4. fixture.Teardown()
5. fixture.Setup()
6. fixture.Test2()
7. fixture.Teardown()
8. fixture.TeardownSuite()
The methods provided by Options may be supplied to this function to tweak
the execution.
func So(t *testing.T, actual any, assertion Func, expected ...any)
func StartWith(actual any, expected ...any) error
StartWith verified that actual starts with expected[0]. The actual value may
be an array, slice, or string.
func WrapError(actual any, expected ...any) error
WrapError uses errors.Is to verify that actual is an error value that wraps
expected[0] (also an error value).
TYPES
type CompositeReporter struct {
// Has unexported fields.
}
func NewCompositeReporter(reporters ...Reporter) *CompositeReporter
func (this *CompositeReporter) Helper()
func (this *CompositeReporter) Report(err error)
func (this *CompositeReporter) Write(p []byte) (n int, err error)
type Func func(actual any, expected ...any) error
type LogReporter struct {
// Has unexported fields.
}
func NewLogReporter(logger *log.Logger) *LogReporter
func (this LogReporter) Helper()
func (this LogReporter) Report(err error)
func (this LogReporter) Write(p []byte) (n int, err error)
type Opt struct{}
var Options Opt
Options provides the sole entrypoint to the option functions provided by
this package.
func (Opt) FreshFixture() Option
FreshFixture signals to Run that the new instances of the provided fixture
are to be instantiated for each and every test case. The Setup and Teardown
methods are also executed on the specifically instantiated fixtures. NOTE:
the SetupSuite and TeardownSuite methods are always run on the provided
fixture instance, regardless of this options having been provided.
func (Opt) IntegrationTests() Option
IntegrationTests is a composite option that signals to Run that the test
suite should be treated as an integration test suite, avoiding parallelism
and utilizing shared fixtures to allow reuse of potentially expensive
resources.
func (Opt) LongRunning() Option
LongRunning signals to Run that the provided fixture is long-running and
should be skipped entirely in the case that testing.Short() returns true.
func (Opt) ParallelFixture() Option
ParallelFixture signals to Run that the provided fixture instance can be
executed in parallel with other go test functions. This option assumes that
`go test` was invoked with the -parallel flag.
func (Opt) ParallelTests() Option
ParallelTests signals to Run that the test methods on the provided fixture
instance can be executed in parallel with each other. This option assumes
that `go test` was invoked with the -parallel flag.
func (Opt) SharedFixture() Option
SharedFixture signals to Run that the provided fixture instance is
to be used to run all test methods. This mode is not compatible with
ParallelFixture or ParallelTests and disables them.
func (Opt) UnitTests() Option
UnitTests is a composite option that signals to Run that the test suite can
be treated as a unit-test suite by employing parallelism and fresh fixtures
to maximize the chances of exposing unwanted coupling between tests.
type Option func(*config)
Option is a function that modifies a config. See Options for provided
behaviors.
type Reporter interface {
Helper()
Report(error)
io.Writer
}
type T struct{ Reporter }
func New(t *testing.T) *T
func Report(reporters ...Reporter) *T
func (this *T) Log(v ...any)
func (this *T) Print(v ...any)
func (this *T) Printf(f string, v ...any)
func (this *T) Println(v ...any)
func (this *T) So(actual any, assertion Func, expected ...any) (ok bool)
type TestingReporter struct{ *testing.T }
func NewTestingReporter(t *testing.T) *TestingReporter
func (this *TestingReporter) Report(err error)
func (this *TestingReporter) Write(p []byte) (n int, err error)
type WriterReporter struct{ io.Writer }
func NewWriterReporter(writer io.Writer) *WriterReporter
func (this *WriterReporter) Helper()
func (this *WriterReporter) Report(err error)