Esempio n. 1
0
// conveyInner is the function which actually executes the user's anonymous test
// function body. At this point, Convey or RootConvey has decided that this
// function should actually run.
func (ctx *context) conveyInner(situation string, f func(C)) {
	// Record/Reset state for next time.
	defer func() {
		ctx.executedOnce = true

		// This is only needed at the leaves, but there's no harm in also setting it
		// when returning from branch Convey's
		*ctx.expectChildRun = false
	}()

	// Set up+tear down our scope for the reporter
	ctx.reporter.Enter(reporting.NewScopeReport(situation))
	defer ctx.reporter.Exit()

	// Recover from any panics in f, and assign the `complete` status for this
	// node of the tree.
	defer func() {
		ctx.complete = true
		if problem := recover(); problem != nil {
			if problem, ok := problem.(*conveyErr); ok {
				panic(problem)
			}
			if problem != failureHalt {
				ctx.reporter.Report(reporting.NewErrorReport(problem))
			}
		} else {
			for _, child := range ctx.children {
				if !child.complete {
					ctx.complete = false
					return
				}
			}
		}
	}()

	// Resets are registered as the `f` function executes, so nil them here.
	// All resets are run in registration order (FIFO).
	ctx.resets = []func(){}
	defer func() {
		for _, r := range ctx.resets {
			// panics handled by the previous defer
			r()
		}
	}()

	if f == nil {
		// if f is nil, this was either a Convey(..., nil), or a SkipConvey
		ctx.reporter.Report(reporting.NewSkipReport())
	} else {
		f(ctx)
	}
}
Esempio n. 2
0
func (ctx *context) SkipSo(stuff ...interface{}) {
	ctx.assertionReport(reporting.NewSkipReport())
}