diff options
Diffstat (limited to 'vendor/gopkg.in/check.v1/check.go')
| -rw-r--r-- | vendor/gopkg.in/check.v1/check.go | 873 |
1 files changed, 873 insertions, 0 deletions
diff --git a/vendor/gopkg.in/check.v1/check.go b/vendor/gopkg.in/check.v1/check.go new file mode 100644 index 000000000..82c26fa73 --- /dev/null +++ b/vendor/gopkg.in/check.v1/check.go @@ -0,0 +1,873 @@ +// Package check is a rich testing extension for Go's testing package. +// +// For details about the project, see: +// +// http://labix.org/gocheck +// +package check + +import ( + "bytes" + "errors" + "fmt" + "io" + "math/rand" + "os" + "path" + "path/filepath" + "reflect" + "regexp" + "runtime" + "strconv" + "strings" + "sync" + "sync/atomic" + "time" +) + +// ----------------------------------------------------------------------- +// Internal type which deals with suite method calling. + +const ( + fixtureKd = iota + testKd +) + +type funcKind int + +const ( + succeededSt = iota + failedSt + skippedSt + panickedSt + fixturePanickedSt + missedSt +) + +type funcStatus uint32 + +// A method value can't reach its own Method structure. +type methodType struct { + reflect.Value + Info reflect.Method +} + +func newMethod(receiver reflect.Value, i int) *methodType { + return &methodType{receiver.Method(i), receiver.Type().Method(i)} +} + +func (method *methodType) PC() uintptr { + return method.Info.Func.Pointer() +} + +func (method *methodType) suiteName() string { + t := method.Info.Type.In(0) + if t.Kind() == reflect.Ptr { + t = t.Elem() + } + return t.Name() +} + +func (method *methodType) String() string { + return method.suiteName() + "." + method.Info.Name +} + +func (method *methodType) matches(re *regexp.Regexp) bool { + return (re.MatchString(method.Info.Name) || + re.MatchString(method.suiteName()) || + re.MatchString(method.String())) +} + +type C struct { + method *methodType + kind funcKind + testName string + _status funcStatus + logb *logger + logw io.Writer + done chan *C + reason string + mustFail bool + tempDir *tempDir + benchMem bool + startTime time.Time + timer +} + +func (c *C) status() funcStatus { + return funcStatus(atomic.LoadUint32((*uint32)(&c._status))) +} + +func (c *C) setStatus(s funcStatus) { + atomic.StoreUint32((*uint32)(&c._status), uint32(s)) +} + +func (c *C) stopNow() { + runtime.Goexit() +} + +// logger is a concurrency safe byte.Buffer +type logger struct { + sync.Mutex + writer bytes.Buffer +} + +func (l *logger) Write(buf []byte) (int, error) { + l.Lock() + defer l.Unlock() + return l.writer.Write(buf) +} + +func (l *logger) WriteTo(w io.Writer) (int64, error) { + l.Lock() + defer l.Unlock() + return l.writer.WriteTo(w) +} + +func (l *logger) String() string { + l.Lock() + defer l.Unlock() + return l.writer.String() +} + +// ----------------------------------------------------------------------- +// Handling of temporary files and directories. + +type tempDir struct { + sync.Mutex + path string + counter int +} + +func (td *tempDir) newPath() string { + td.Lock() + defer td.Unlock() + if td.path == "" { + var err error + for i := 0; i != 100; i++ { + path := fmt.Sprintf("%s%ccheck-%d", os.TempDir(), os.PathSeparator, rand.Int()) + if err = os.Mkdir(path, 0700); err == nil { + td.path = path + break + } + } + if td.path == "" { + panic("Couldn't create temporary directory: " + err.Error()) + } + } + result := filepath.Join(td.path, strconv.Itoa(td.counter)) + td.counter += 1 + return result +} + +func (td *tempDir) removeAll() { + td.Lock() + defer td.Unlock() + if td.path != "" { + err := os.RemoveAll(td.path) + if err != nil { + fmt.Fprintf(os.Stderr, "WARNING: Error cleaning up temporaries: "+err.Error()) + } + } +} + +// Create a new temporary directory which is automatically removed after +// the suite finishes running. +func (c *C) MkDir() string { + path := c.tempDir.newPath() + if err := os.Mkdir(path, 0700); err != nil { + panic(fmt.Sprintf("Couldn't create temporary directory %s: %s", path, err.Error())) + } + return path +} + +// ----------------------------------------------------------------------- +// Low-level logging functions. + +func (c *C) log(args ...interface{}) { + c.writeLog([]byte(fmt.Sprint(args...) + "\n")) +} + +func (c *C) logf(format string, args ...interface{}) { + c.writeLog([]byte(fmt.Sprintf(format+"\n", args...))) +} + +func (c *C) logNewLine() { + c.writeLog([]byte{'\n'}) +} + +func (c *C) writeLog(buf []byte) { + c.logb.Write(buf) + if c.logw != nil { + c.logw.Write(buf) + } +} + +func hasStringOrError(x interface{}) (ok bool) { + _, ok = x.(fmt.Stringer) + if ok { + return + } + _, ok = x.(error) + return +} + +func (c *C) logValue(label string, value interface{}) { + if label == "" { + if hasStringOrError(value) { + c.logf("... %#v (%q)", value, value) + } else { + c.logf("... %#v", value) + } + } else if value == nil { + c.logf("... %s = nil", label) + } else { + if hasStringOrError(value) { + fv := fmt.Sprintf("%#v", value) + qv := fmt.Sprintf("%q", value) + if fv != qv { + c.logf("... %s %s = %s (%s)", label, reflect.TypeOf(value), fv, qv) + return + } + } + if s, ok := value.(string); ok && isMultiLine(s) { + c.logf(`... %s %s = "" +`, label, reflect.TypeOf(value)) + c.logMultiLine(s) + } else { + c.logf("... %s %s = %#v", label, reflect.TypeOf(value), value) + } + } +} + +func (c *C) logMultiLine(s string) { + b := make([]byte, 0, len(s)*2) + i := 0 + n := len(s) + for i < n { + j := i + 1 + for j < n && s[j-1] != '\n' { + j++ + } + b = append(b, "... "...) + b = strconv.AppendQuote(b, s[i:j]) + if j < n { + b = append(b, " +"...) + } + b = append(b, '\n') + i = j + } + c.writeLog(b) +} + +func isMultiLine(s string) bool { + for i := 0; i+1 < len(s); i++ { + if s[i] == '\n' { + return true + } + } + return false +} + +func (c *C) logString(issue string) { + c.log("... ", issue) +} + +func (c *C) logCaller(skip int) { + // This is a bit heavier than it ought to be. + skip += 1 // Our own frame. + pc, callerFile, callerLine, ok := runtime.Caller(skip) + if !ok { + return + } + var testFile string + var testLine int + testFunc := runtime.FuncForPC(c.method.PC()) + if runtime.FuncForPC(pc) != testFunc { + for { + skip += 1 + if pc, file, line, ok := runtime.Caller(skip); ok { + // Note that the test line may be different on + // distinct calls for the same test. Showing + // the "internal" line is helpful when debugging. + if runtime.FuncForPC(pc) == testFunc { + testFile, testLine = file, line + break + } + } else { + break + } + } + } + if testFile != "" && (testFile != callerFile || testLine != callerLine) { + c.logCode(testFile, testLine) + } + c.logCode(callerFile, callerLine) +} + +func (c *C) logCode(path string, line int) { + c.logf("%s:%d:", nicePath(path), line) + code, err := printLine(path, line) + if code == "" { + code = "..." // XXX Open the file and take the raw line. + if err != nil { + code += err.Error() + } + } + c.log(indent(code, " ")) +} + +var valueGo = filepath.Join("reflect", "value.go") +var asmGo = filepath.Join("runtime", "asm_") + +func (c *C) logPanic(skip int, value interface{}) { + skip++ // Our own frame. + initialSkip := skip + for ; ; skip++ { + if pc, file, line, ok := runtime.Caller(skip); ok { + if skip == initialSkip { + c.logf("... Panic: %s (PC=0x%X)\n", value, pc) + } + name := niceFuncName(pc) + path := nicePath(file) + if strings.Contains(path, "/gopkg.in/check.v") { + continue + } + if name == "Value.call" && strings.HasSuffix(path, valueGo) { + continue + } + if (name == "call16" || name == "call32") && strings.Contains(path, asmGo) { + continue + } + c.logf("%s:%d\n in %s", nicePath(file), line, name) + } else { + break + } + } +} + +func (c *C) logSoftPanic(issue string) { + c.log("... Panic: ", issue) +} + +func (c *C) logArgPanic(method *methodType, expectedType string) { + c.logf("... Panic: %s argument should be %s", + niceFuncName(method.PC()), expectedType) +} + +// ----------------------------------------------------------------------- +// Some simple formatting helpers. + +var initWD, initWDErr = os.Getwd() + +func init() { + if initWDErr == nil { + initWD = strings.Replace(initWD, "\\", "/", -1) + "/" + } +} + +func nicePath(path string) string { + if initWDErr == nil { + if strings.HasPrefix(path, initWD) { + return path[len(initWD):] + } + } + return path +} + +func niceFuncPath(pc uintptr) string { + function := runtime.FuncForPC(pc) + if function != nil { + filename, line := function.FileLine(pc) + return fmt.Sprintf("%s:%d", nicePath(filename), line) + } + return "<unknown path>" +} + +func niceFuncName(pc uintptr) string { + function := runtime.FuncForPC(pc) + if function != nil { + name := path.Base(function.Name()) + if i := strings.Index(name, "."); i > 0 { + name = name[i+1:] + } + if strings.HasPrefix(name, "(*") { + if i := strings.Index(name, ")"); i > 0 { + name = name[2:i] + name[i+1:] + } + } + if i := strings.LastIndex(name, ".*"); i != -1 { + name = name[:i] + "." + name[i+2:] + } + if i := strings.LastIndex(name, "ยท"); i != -1 { + name = name[:i] + "." + name[i+2:] + } + return name + } + return "<unknown function>" +} + +// ----------------------------------------------------------------------- +// Result tracker to aggregate call results. + +type Result struct { + Succeeded int + Failed int + Skipped int + Panicked int + FixturePanicked int + ExpectedFailures int + Missed int // Not even tried to run, related to a panic in the fixture. + RunError error // Houston, we've got a problem. + WorkDir string // If KeepWorkDir is true +} + +type resultTracker struct { + result Result + _lastWasProblem bool + _waiting int + _missed int + _expectChan chan *C + _doneChan chan *C + _stopChan chan bool +} + +func newResultTracker() *resultTracker { + return &resultTracker{_expectChan: make(chan *C), // Synchronous + _doneChan: make(chan *C, 32), // Asynchronous + _stopChan: make(chan bool)} // Synchronous +} + +func (tracker *resultTracker) start() { + go tracker._loopRoutine() +} + +func (tracker *resultTracker) waitAndStop() { + <-tracker._stopChan +} + +func (tracker *resultTracker) expectCall(c *C) { + tracker._expectChan <- c +} + +func (tracker *resultTracker) callDone(c *C) { + tracker._doneChan <- c +} + +func (tracker *resultTracker) _loopRoutine() { + for { + var c *C + if tracker._waiting > 0 { + // Calls still running. Can't stop. + select { + // XXX Reindent this (not now to make diff clear) + case c = <-tracker._expectChan: + tracker._waiting += 1 + case c = <-tracker._doneChan: + tracker._waiting -= 1 + switch c.status() { + case succeededSt: + if c.kind == testKd { + if c.mustFail { + tracker.result.ExpectedFailures++ + } else { + tracker.result.Succeeded++ + } + } + case failedSt: + tracker.result.Failed++ + case panickedSt: + if c.kind == fixtureKd { + tracker.result.FixturePanicked++ + } else { + tracker.result.Panicked++ + } + case fixturePanickedSt: + // Track it as missed, since the panic + // was on the fixture, not on the test. + tracker.result.Missed++ + case missedSt: + tracker.result.Missed++ + case skippedSt: + if c.kind == testKd { + tracker.result.Skipped++ + } + } + } + } else { + // No calls. Can stop, but no done calls here. + select { + case tracker._stopChan <- true: + return + case c = <-tracker._expectChan: + tracker._waiting += 1 + case c = <-tracker._doneChan: + panic("Tracker got an unexpected done call.") + } + } + } +} + +// ----------------------------------------------------------------------- +// The underlying suite runner. + +type suiteRunner struct { + suite interface{} + setUpSuite, tearDownSuite *methodType + setUpTest, tearDownTest *methodType + tests []*methodType + tracker *resultTracker + tempDir *tempDir + keepDir bool + output *outputWriter + reportedProblemLast bool + benchTime time.Duration + benchMem bool +} + +type RunConf struct { + Output io.Writer + Stream bool + Verbose bool + Filter string + Benchmark bool + BenchmarkTime time.Duration // Defaults to 1 second + BenchmarkMem bool + KeepWorkDir bool +} + +// Create a new suiteRunner able to run all methods in the given suite. +func newSuiteRunner(suite interface{}, runConf *RunConf) *suiteRunner { + var conf RunConf + if runConf != nil { + conf = *runConf + } + if conf.Output == nil { + conf.Output = os.Stdout + } + if conf.Benchmark { + conf.Verbose = true + } + + suiteType := reflect.TypeOf(suite) + suiteNumMethods := suiteType.NumMethod() + suiteValue := reflect.ValueOf(suite) + + runner := &suiteRunner{ + suite: suite, + output: newOutputWriter(conf.Output, conf.Stream, conf.Verbose), + tracker: newResultTracker(), + benchTime: conf.BenchmarkTime, + benchMem: conf.BenchmarkMem, + tempDir: &tempDir{}, + keepDir: conf.KeepWorkDir, + tests: make([]*methodType, 0, suiteNumMethods), + } + if runner.benchTime == 0 { + runner.benchTime = 1 * time.Second + } + + var filterRegexp *regexp.Regexp + if conf.Filter != "" { + if regexp, err := regexp.Compile(conf.Filter); err != nil { + msg := "Bad filter expression: " + err.Error() + runner.tracker.result.RunError = errors.New(msg) + return runner + } else { + filterRegexp = regexp + } + } + + for i := 0; i != suiteNumMethods; i++ { + method := newMethod(suiteValue, i) + switch method.Info.Name { + case "SetUpSuite": + runner.setUpSuite = method + case "TearDownSuite": + runner.tearDownSuite = method + case "SetUpTest": + runner.setUpTest = method + case "TearDownTest": + runner.tearDownTest = method + default: + prefix := "Test" + if conf.Benchmark { + prefix = "Benchmark" + } + if !strings.HasPrefix(method.Info.Name, prefix) { + continue + } + if filterRegexp == nil || method.matches(filterRegexp) { + runner.tests = append(runner.tests, method) + } + } + } + return runner +} + +// Run all methods in the given suite. +func (runner *suiteRunner) run() *Result { + if runner.tracker.result.RunError == nil && len(runner.tests) > 0 { + runner.tracker.start() + if runner.checkFixtureArgs() { + c := runner.runFixture(runner.setUpSuite, "", nil) + if c == nil || c.status() == succeededSt { + for i := 0; i != len(runner.tests); i++ { + c := runner.runTest(runner.tests[i]) + if c.status() == fixturePanickedSt { + runner.skipTests(missedSt, runner.tests[i+1:]) + break + } + } + } else if c != nil && c.status() == skippedSt { + runner.skipTests(skippedSt, runner.tests) + } else { + runner.skipTests(missedSt, runner.tests) + } + runner.runFixture(runner.tearDownSuite, "", nil) + } else { + runner.skipTests(missedSt, runner.tests) + } + runner.tracker.waitAndStop() + if runner.keepDir { + runner.tracker.result.WorkDir = runner.tempDir.path + } else { + runner.tempDir.removeAll() + } + } + return &runner.tracker.result +} + +// Create a call object with the given suite method, and fork a +// goroutine with the provided dispatcher for running it. +func (runner *suiteRunner) forkCall(method *methodType, kind funcKind, testName string, logb *logger, dispatcher func(c *C)) *C { + var logw io.Writer + if runner.output.Stream { + logw = runner.output + } + if logb == nil { + logb = new(logger) + } + c := &C{ + method: method, + kind: kind, + testName: testName, + logb: logb, + logw: logw, + tempDir: runner.tempDir, + done: make(chan *C, 1), + timer: timer{benchTime: runner.benchTime}, + startTime: time.Now(), + benchMem: runner.benchMem, + } + runner.tracker.expectCall(c) + go (func() { + runner.reportCallStarted(c) + defer runner.callDone(c) + dispatcher(c) + })() + return c +} + +// Same as forkCall(), but wait for call to finish before returning. +func (runner *suiteRunner) runFunc(method *methodType, kind funcKind, testName string, logb *logger, dispatcher func(c *C)) *C { + c := runner.forkCall(method, kind, testName, logb, dispatcher) + <-c.done + return c +} + +// Handle a finished call. If there were any panics, update the call status +// accordingly. Then, mark the call as done and report to the tracker. +func (runner *suiteRunner) callDone(c *C) { + value := recover() + if value != nil { + switch v := value.(type) { + case *fixturePanic: + if v.status == skippedSt { + c.setStatus(skippedSt) + } else { + c.logSoftPanic("Fixture has panicked (see related PANIC)") + c.setStatus(fixturePanickedSt) + } + default: + c.logPanic(1, value) + c.setStatus(panickedSt) + } + } + if c.mustFail { + switch c.status() { + case failedSt: + c.setStatus(succeededSt) + case succeededSt: + c.setStatus(failedSt) + c.logString("Error: Test succeeded, but was expected to fail") + c.logString("Reason: " + c.reason) + } + } + + runner.reportCallDone(c) + c.done <- c +} + +// Runs a fixture call synchronously. The fixture will still be run in a +// goroutine like all suite methods, but this method will not return +// while the fixture goroutine is not done, because the fixture must be +// run in a desired order. +func (runner *suiteRunner) runFixture(method *methodType, testName string, logb *logger) *C { + if method != nil { + c := runner.runFunc(method, fixtureKd, testName, logb, func(c *C) { + c.ResetTimer() + c.StartTimer() + defer c.StopTimer() + c.method.Call([]reflect.Value{reflect.ValueOf(c)}) + }) + return c + } + return nil +} + +// Run the fixture method with runFixture(), but panic with a fixturePanic{} +// in case the fixture method panics. This makes it easier to track the +// fixture panic together with other call panics within forkTest(). +func (runner *suiteRunner) runFixtureWithPanic(method *methodType, testName string, logb *logger, skipped *bool) *C { + if skipped != nil && *skipped { + return nil + } + c := runner.runFixture(method, testName, logb) + if c != nil && c.status() != succeededSt { + if skipped != nil { + *skipped = c.status() == skippedSt + } + panic(&fixturePanic{c.status(), method}) + } + return c +} + +type fixturePanic struct { + status funcStatus + method *methodType +} + +// Run the suite test method, together with the test-specific fixture, +// asynchronously. +func (runner *suiteRunner) forkTest(method *methodType) *C { + testName := method.String() + return runner.forkCall(method, testKd, testName, nil, func(c *C) { + var skipped bool + defer runner.runFixtureWithPanic(runner.tearDownTest, testName, nil, &skipped) + defer c.StopTimer() + benchN := 1 + for { + runner.runFixtureWithPanic(runner.setUpTest, testName, c.logb, &skipped) + mt := c.method.Type() + if mt.NumIn() != 1 || mt.In(0) != reflect.TypeOf(c) { + // Rather than a plain panic, provide a more helpful message when + // the argument type is incorrect. + c.setStatus(panickedSt) + c.logArgPanic(c.method, "*check.C") + return + } + if strings.HasPrefix(c.method.Info.Name, "Test") { + c.ResetTimer() + c.StartTimer() + c.method.Call([]reflect.Value{reflect.ValueOf(c)}) + return + } + if !strings.HasPrefix(c.method.Info.Name, "Benchmark") { + panic("unexpected method prefix: " + c.method.Info.Name) + } + + runtime.GC() + c.N = benchN + c.ResetTimer() + c.StartTimer() + c.method.Call([]reflect.Value{reflect.ValueOf(c)}) + c.StopTimer() + if c.status() != succeededSt || c.duration >= c.benchTime || benchN >= 1e9 { + return + } + perOpN := int(1e9) + if c.nsPerOp() != 0 { + perOpN = int(c.benchTime.Nanoseconds() / c.nsPerOp()) + } + + // Logic taken from the stock testing package: + // - Run more iterations than we think we'll need for a second (1.5x). + // - Don't grow too fast in case we had timing errors previously. + // - Be sure to run at least one more than last time. + benchN = max(min(perOpN+perOpN/2, 100*benchN), benchN+1) + benchN = roundUp(benchN) + + skipped = true // Don't run the deferred one if this panics. + runner.runFixtureWithPanic(runner.tearDownTest, testName, nil, nil) + skipped = false + } + }) +} + +// Same as forkTest(), but wait for the test to finish before returning. +func (runner *suiteRunner) runTest(method *methodType) *C { + c := runner.forkTest(method) + <-c.done + return c +} + +// Helper to mark tests as skipped or missed. A bit heavy for what +// it does, but it enables homogeneous handling of tracking, including +// nice verbose output. +func (runner *suiteRunner) skipTests(status funcStatus, methods []*methodType) { + for _, method := range methods { + runner.runFunc(method, testKd, "", nil, func(c *C) { + c.setStatus(status) + }) + } +} + +// Verify if the fixture arguments are *check.C. In case of errors, +// log the error as a panic in the fixture method call, and return false. +func (runner *suiteRunner) checkFixtureArgs() bool { + succeeded := true + argType := reflect.TypeOf(&C{}) + for _, method := range []*methodType{runner.setUpSuite, runner.tearDownSuite, runner.setUpTest, runner.tearDownTest} { + if method != nil { + mt := method.Type() + if mt.NumIn() != 1 || mt.In(0) != argType { + succeeded = false + runner.runFunc(method, fixtureKd, "", nil, func(c *C) { + c.logArgPanic(method, "*check.C") + c.setStatus(panickedSt) + }) + } + } + } + return succeeded +} + +func (runner *suiteRunner) reportCallStarted(c *C) { + runner.output.WriteCallStarted("START", c) +} + +func (runner *suiteRunner) reportCallDone(c *C) { + runner.tracker.callDone(c) + switch c.status() { + case succeededSt: + if c.mustFail { + runner.output.WriteCallSuccess("FAIL EXPECTED", c) + } else { + runner.output.WriteCallSuccess("PASS", c) + } + case skippedSt: + runner.output.WriteCallSuccess("SKIP", c) + case failedSt: + runner.output.WriteCallProblem("FAIL", c) + case panickedSt: + runner.output.WriteCallProblem("PANIC", c) + case fixturePanickedSt: + // That's a testKd call reporting that its fixture + // has panicked. The fixture call which caused the + // panic itself was tracked above. We'll report to + // aid debugging. + runner.output.WriteCallProblem("PANIC", c) + case missedSt: + runner.output.WriteCallSuccess("MISS", c) + } +} |