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218 lines
8.5 KiB
Go
218 lines
8.5 KiB
Go
// Package convey contains all of the public-facing entry points to this project.
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// This means that it should never be required of the user to import any other
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// packages from this project as they serve internal purposes.
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package convey
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import "github.com/smartystreets/goconvey/convey/reporting"
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////////////////////////////////// suite //////////////////////////////////
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// C is the Convey context which you can optionally obtain in your action
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// by calling Convey like:
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//
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// Convey(..., func(c C) {
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// ...
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// })
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//
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// See the documentation on Convey for more details.
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//
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// All methods in this context behave identically to the global functions of the
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// same name in this package.
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type C interface {
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Convey(items ...interface{})
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SkipConvey(items ...interface{})
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FocusConvey(items ...interface{})
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So(actual interface{}, assert assertion, expected ...interface{})
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SkipSo(stuff ...interface{})
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Reset(action func())
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Println(items ...interface{}) (int, error)
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Print(items ...interface{}) (int, error)
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Printf(format string, items ...interface{}) (int, error)
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}
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// Convey is the method intended for use when declaring the scopes of
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// a specification. Each scope has a description and a func() which may contain
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// other calls to Convey(), Reset() or Should-style assertions. Convey calls can
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// be nested as far as you see fit.
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//
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// IMPORTANT NOTE: The top-level Convey() within a Test method
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// must conform to the following signature:
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//
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// Convey(description string, t *testing.T, action func())
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//
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// All other calls should look like this (no need to pass in *testing.T):
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//
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// Convey(description string, action func())
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//
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// Don't worry, goconvey will panic if you get it wrong so you can fix it.
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//
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// Additionally, you may explicitly obtain access to the Convey context by doing:
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//
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// Convey(description string, action func(c C))
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//
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// You may need to do this if you want to pass the context through to a
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// goroutine, or to close over the context in a handler to a library which
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// calls your handler in a goroutine (httptest comes to mind).
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//
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// All Convey()-blocks also accept an optional parameter of FailureMode which sets
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// how goconvey should treat failures for So()-assertions in the block and
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// nested blocks. See the constants in this file for the available options.
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//
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// By default it will inherit from its parent block and the top-level blocks
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// default to the FailureHalts setting.
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//
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// This parameter is inserted before the block itself:
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//
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// Convey(description string, t *testing.T, mode FailureMode, action func())
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// Convey(description string, mode FailureMode, action func())
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//
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// See the examples package for, well, examples.
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func Convey(items ...interface{}) {
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if ctx := getCurrentContext(); ctx == nil {
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rootConvey(items...)
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} else {
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ctx.Convey(items...)
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}
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}
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// SkipConvey is analagous to Convey except that the scope is not executed
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// (which means that child scopes defined within this scope are not run either).
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// The reporter will be notified that this step was skipped.
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func SkipConvey(items ...interface{}) {
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Convey(append(items, skipConvey)...)
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}
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// FocusConvey is has the inverse effect of SkipConvey. If the top-level
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// Convey is changed to `FocusConvey`, only nested scopes that are defined
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// with FocusConvey will be run. The rest will be ignored completely. This
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// is handy when debugging a large suite that runs a misbehaving function
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// repeatedly as you can disable all but one of that function
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// without swaths of `SkipConvey` calls, just a targeted chain of calls
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// to FocusConvey.
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func FocusConvey(items ...interface{}) {
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Convey(append(items, focusConvey)...)
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}
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// Reset registers a cleanup function to be run after each Convey()
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// in the same scope. See the examples package for a simple use case.
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func Reset(action func()) {
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mustGetCurrentContext().Reset(action)
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}
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/////////////////////////////////// Assertions ///////////////////////////////////
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// assertion is an alias for a function with a signature that the convey.So()
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// method can handle. Any future or custom assertions should conform to this
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// method signature. The return value should be an empty string if the assertion
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// passes and a well-formed failure message if not.
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type assertion func(actual interface{}, expected ...interface{}) string
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const assertionSuccess = ""
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// So is the means by which assertions are made against the system under test.
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// The majority of exported names in the assertions package begin with the word
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// 'Should' and describe how the first argument (actual) should compare with any
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// of the final (expected) arguments. How many final arguments are accepted
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// depends on the particular assertion that is passed in as the assert argument.
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// See the examples package for use cases and the assertions package for
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// documentation on specific assertion methods. A failing assertion will
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// cause t.Fail() to be invoked--you should never call this method (or other
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// failure-inducing methods) in your test code. Leave that to GoConvey.
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func So(actual interface{}, assert assertion, expected ...interface{}) {
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mustGetCurrentContext().So(actual, assert, expected...)
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}
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// SkipSo is analagous to So except that the assertion that would have been passed
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// to So is not executed and the reporter is notified that the assertion was skipped.
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func SkipSo(stuff ...interface{}) {
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mustGetCurrentContext().SkipSo()
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}
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// FailureMode is a type which determines how the So() blocks should fail
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// if their assertion fails. See constants further down for acceptable values
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type FailureMode string
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const (
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// FailureContinues is a failure mode which prevents failing
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// So()-assertions from halting Convey-block execution, instead
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// allowing the test to continue past failing So()-assertions.
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FailureContinues FailureMode = "continue"
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// FailureHalts is the default setting for a top-level Convey()-block
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// and will cause all failing So()-assertions to halt further execution
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// in that test-arm and continue on to the next arm.
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FailureHalts FailureMode = "halt"
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// FailureInherits is the default setting for failure-mode, it will
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// default to the failure-mode of the parent block. You should never
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// need to specify this mode in your tests..
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FailureInherits FailureMode = "inherits"
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)
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func (f FailureMode) combine(other FailureMode) FailureMode {
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if other == FailureInherits {
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return f
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}
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return other
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}
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var defaultFailureMode FailureMode = FailureHalts
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// SetDefaultFailureMode allows you to specify the default failure mode
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// for all Convey blocks. It is meant to be used in an init function to
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// allow the default mode to be changdd across all tests for an entire packgae
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// but it can be used anywhere.
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func SetDefaultFailureMode(mode FailureMode) {
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if mode == FailureContinues || mode == FailureHalts {
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defaultFailureMode = mode
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} else {
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panic("You may only use the constants named 'FailureContinues' and 'FailureHalts' as default failure modes.")
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}
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}
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//////////////////////////////////// Print functions ////////////////////////////////////
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// Print is analogous to fmt.Print (and it even calls fmt.Print). It ensures that
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// output is aligned with the corresponding scopes in the web UI.
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func Print(items ...interface{}) (written int, err error) {
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return mustGetCurrentContext().Print(items...)
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}
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// Print is analogous to fmt.Println (and it even calls fmt.Println). It ensures that
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// output is aligned with the corresponding scopes in the web UI.
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func Println(items ...interface{}) (written int, err error) {
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return mustGetCurrentContext().Println(items...)
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}
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// Print is analogous to fmt.Printf (and it even calls fmt.Printf). It ensures that
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// output is aligned with the corresponding scopes in the web UI.
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func Printf(format string, items ...interface{}) (written int, err error) {
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return mustGetCurrentContext().Printf(format, items...)
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}
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///////////////////////////////////////////////////////////////////////////////
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// SuppressConsoleStatistics prevents automatic printing of console statistics.
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// Calling PrintConsoleStatistics explicitly will force printing of statistics.
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func SuppressConsoleStatistics() {
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reporting.SuppressConsoleStatistics()
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}
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// ConsoleStatistics may be called at any time to print assertion statistics.
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// Generally, the best place to do this would be in a TestMain function,
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// after all tests have been run. Something like this:
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//
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// func TestMain(m *testing.M) {
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// convey.SuppressConsoleStatistics()
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// result := m.Run()
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// convey.PrintConsoleStatistics()
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// os.Exit(result)
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// }
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//
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func PrintConsoleStatistics() {
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reporting.PrintConsoleStatistics()
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}
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