forked from Shiloh/githaven
273 lines
7.0 KiB
Go
273 lines
7.0 KiB
Go
package convey
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import (
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"fmt"
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"github.com/jtolds/gls"
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"github.com/smartystreets/goconvey/convey/reporting"
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)
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type conveyErr struct {
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fmt string
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params []interface{}
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}
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func (e *conveyErr) Error() string {
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return fmt.Sprintf(e.fmt, e.params...)
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}
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func conveyPanic(fmt string, params ...interface{}) {
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panic(&conveyErr{fmt, params})
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}
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const (
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missingGoTest = `Top-level calls to Convey(...) need a reference to the *testing.T.
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Hint: Convey("description here", t, func() { /* notice that the second argument was the *testing.T (t)! */ }) `
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extraGoTest = `Only the top-level call to Convey(...) needs a reference to the *testing.T.`
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noStackContext = "Convey operation made without context on goroutine stack.\n" +
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"Hint: Perhaps you meant to use `Convey(..., func(c C){...})` ?"
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differentConveySituations = "Different set of Convey statements on subsequent pass!\nDid not expect %#v."
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multipleIdenticalConvey = "Multiple convey suites with identical names: %#v"
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)
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const (
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failureHalt = "___FAILURE_HALT___"
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nodeKey = "node"
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)
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///////////////////////////////// Stack Context /////////////////////////////////
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func getCurrentContext() *context {
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ctx, ok := ctxMgr.GetValue(nodeKey)
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if ok {
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return ctx.(*context)
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}
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return nil
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}
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func mustGetCurrentContext() *context {
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ctx := getCurrentContext()
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if ctx == nil {
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conveyPanic(noStackContext)
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}
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return ctx
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}
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//////////////////////////////////// Context ////////////////////////////////////
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// context magically handles all coordination of Convey's and So assertions.
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//
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// It is tracked on the stack as goroutine-local-storage with the gls package,
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// or explicitly if the user decides to call convey like:
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//
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// Convey(..., func(c C) {
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// c.So(...)
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// })
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//
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// This implements the `C` interface.
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type context struct {
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reporter reporting.Reporter
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children map[string]*context
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resets []func()
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executedOnce bool
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expectChildRun *bool
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complete bool
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focus bool
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failureMode FailureMode
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}
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// rootConvey is the main entry point to a test suite. This is called when
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// there's no context in the stack already, and items must contain a `t` object,
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// or this panics.
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func rootConvey(items ...interface{}) {
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entry := discover(items)
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if entry.Test == nil {
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conveyPanic(missingGoTest)
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}
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expectChildRun := true
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ctx := &context{
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reporter: buildReporter(),
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children: make(map[string]*context),
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expectChildRun: &expectChildRun,
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focus: entry.Focus,
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failureMode: defaultFailureMode.combine(entry.FailMode),
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}
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ctxMgr.SetValues(gls.Values{nodeKey: ctx}, func() {
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ctx.reporter.BeginStory(reporting.NewStoryReport(entry.Test))
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defer ctx.reporter.EndStory()
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for ctx.shouldVisit() {
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ctx.conveyInner(entry.Situation, entry.Func)
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expectChildRun = true
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}
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})
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}
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//////////////////////////////////// Methods ////////////////////////////////////
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func (ctx *context) SkipConvey(items ...interface{}) {
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ctx.Convey(items, skipConvey)
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}
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func (ctx *context) FocusConvey(items ...interface{}) {
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ctx.Convey(items, focusConvey)
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}
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func (ctx *context) Convey(items ...interface{}) {
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entry := discover(items)
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// we're a branch, or leaf (on the wind)
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if entry.Test != nil {
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conveyPanic(extraGoTest)
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}
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if ctx.focus && !entry.Focus {
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return
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}
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var inner_ctx *context
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if ctx.executedOnce {
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var ok bool
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inner_ctx, ok = ctx.children[entry.Situation]
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if !ok {
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conveyPanic(differentConveySituations, entry.Situation)
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}
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} else {
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if _, ok := ctx.children[entry.Situation]; ok {
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conveyPanic(multipleIdenticalConvey, entry.Situation)
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}
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inner_ctx = &context{
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reporter: ctx.reporter,
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children: make(map[string]*context),
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expectChildRun: ctx.expectChildRun,
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focus: entry.Focus,
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failureMode: ctx.failureMode.combine(entry.FailMode),
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}
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ctx.children[entry.Situation] = inner_ctx
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}
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if inner_ctx.shouldVisit() {
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ctxMgr.SetValues(gls.Values{nodeKey: inner_ctx}, func() {
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inner_ctx.conveyInner(entry.Situation, entry.Func)
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})
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}
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}
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func (ctx *context) SkipSo(stuff ...interface{}) {
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ctx.assertionReport(reporting.NewSkipReport())
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}
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func (ctx *context) So(actual interface{}, assert assertion, expected ...interface{}) {
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if result := assert(actual, expected...); result == assertionSuccess {
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ctx.assertionReport(reporting.NewSuccessReport())
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} else {
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ctx.assertionReport(reporting.NewFailureReport(result))
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}
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}
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func (ctx *context) Reset(action func()) {
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/* TODO: Failure mode configuration */
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ctx.resets = append(ctx.resets, action)
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}
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func (ctx *context) Print(items ...interface{}) (int, error) {
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fmt.Fprint(ctx.reporter, items...)
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return fmt.Print(items...)
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}
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func (ctx *context) Println(items ...interface{}) (int, error) {
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fmt.Fprintln(ctx.reporter, items...)
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return fmt.Println(items...)
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}
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func (ctx *context) Printf(format string, items ...interface{}) (int, error) {
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fmt.Fprintf(ctx.reporter, format, items...)
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return fmt.Printf(format, items...)
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}
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//////////////////////////////////// Private ////////////////////////////////////
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// shouldVisit returns true iff we should traverse down into a Convey. Note
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// that just because we don't traverse a Convey this time, doesn't mean that
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// we may not traverse it on a subsequent pass.
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func (c *context) shouldVisit() bool {
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return !c.complete && *c.expectChildRun
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}
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// conveyInner is the function which actually executes the user's anonymous test
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// function body. At this point, Convey or RootConvey has decided that this
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// function should actually run.
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func (ctx *context) conveyInner(situation string, f func(C)) {
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// Record/Reset state for next time.
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defer func() {
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ctx.executedOnce = true
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// This is only needed at the leaves, but there's no harm in also setting it
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// when returning from branch Convey's
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*ctx.expectChildRun = false
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}()
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// Set up+tear down our scope for the reporter
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ctx.reporter.Enter(reporting.NewScopeReport(situation))
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defer ctx.reporter.Exit()
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// Recover from any panics in f, and assign the `complete` status for this
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// node of the tree.
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defer func() {
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ctx.complete = true
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if problem := recover(); problem != nil {
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if problem, ok := problem.(*conveyErr); ok {
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panic(problem)
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}
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if problem != failureHalt {
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ctx.reporter.Report(reporting.NewErrorReport(problem))
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}
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} else {
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for _, child := range ctx.children {
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if !child.complete {
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ctx.complete = false
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return
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}
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}
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}
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}()
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// Resets are registered as the `f` function executes, so nil them here.
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// All resets are run in registration order (FIFO).
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ctx.resets = []func(){}
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defer func() {
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for _, r := range ctx.resets {
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// panics handled by the previous defer
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r()
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}
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}()
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if f == nil {
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// if f is nil, this was either a Convey(..., nil), or a SkipConvey
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ctx.reporter.Report(reporting.NewSkipReport())
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} else {
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f(ctx)
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}
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}
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// assertionReport is a helper for So and SkipSo which makes the report and
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// then possibly panics, depending on the current context's failureMode.
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func (ctx *context) assertionReport(r *reporting.AssertionResult) {
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ctx.reporter.Report(r)
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if r.Failure != "" && ctx.failureMode == FailureHalts {
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panic(failureHalt)
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}
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}
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