vendor/github.com/go-check/check/helpers.go - third_party/github.com/moby/moby - Git at Google

 package check

 import (
 	"fmt"
 	"strings"
 	"time"
 )

 // TestName returns the current test name in the form "SuiteName.TestName"
 func (c *C) TestName() string {
 	return c.testName
 }

 // -----------------------------------------------------------------------
 // Basic succeeding/failing logic.

 // Failed returns whether the currently running test has already failed.
 func (c *C) Failed() bool {
 	return c.status() == failedSt
 }

 // Fail marks the currently running test as failed.
 //
 // Something ought to have been previously logged so the developer can tell
 // what went wrong. The higher level helper functions will fail the test
 // and do the logging properly.
 func (c *C) Fail() {
 	c.setStatus(failedSt)
 }

 // FailNow marks the currently running test as failed and stops running it.
 // Something ought to have been previously logged so the developer can tell
 // what went wrong. The higher level helper functions will fail the test
 // and do the logging properly.
 func (c *C) FailNow() {
 	c.Fail()
 	c.stopNow()
 }

 // Succeed marks the currently running test as succeeded, undoing any
 // previous failures.
 func (c *C) Succeed() {
 	c.setStatus(succeededSt)
 }

 // SucceedNow marks the currently running test as succeeded, undoing any
 // previous failures, and stops running the test.
 func (c *C) SucceedNow() {
 	c.Succeed()
 	c.stopNow()
 }

 // ExpectFailure informs that the running test is knowingly broken for
 // the provided reason. If the test does not fail, an error will be reported
 // to raise attention to this fact. This method is useful to temporarily
 // disable tests which cover well known problems until a better time to
 // fix the problem is found, without forgetting about the fact that a
 // failure still exists.
 func (c *C) ExpectFailure(reason string) {
 	if reason == "" {
 		panic("Missing reason why the test is expected to fail")
 	}
 	c.mustFail = true
 	c.reason = reason
 }

 // Skip skips the running test for the provided reason. If run from within
 // SetUpTest, the individual test being set up will be skipped, and if run
 // from within SetUpSuite, the whole suite is skipped.
 func (c *C) Skip(reason string) {
 	if reason == "" {
 		panic("Missing reason why the test is being skipped")
 	}
 	c.reason = reason
 	c.setStatus(skippedSt)
 	c.stopNow()
 }

 // -----------------------------------------------------------------------
 // Basic logging.

 // GetTestLog returns the current test error output.
 func (c *C) GetTestLog() string {
 	return c.logb.String()
 }

 // Log logs some information into the test error output.
 // The provided arguments are assembled together into a string with fmt.Sprint.
 func (c *C) Log(args ...interface{}) {
 	c.log(args...)
 }

 // Log logs some information into the test error output.
 // The provided arguments are assembled together into a string with fmt.Sprintf.
 func (c *C) Logf(format string, args ...interface{}) {
 	c.logf(format, args...)
 }

 // Output enables *C to be used as a logger in functions that require only
 // the minimum interface of *log.Logger.
 func (c *C) Output(calldepth int, s string) error {
 	d := time.Now().Sub(c.startTime)
 	msec := d / time.Millisecond
 	sec := d / time.Second
 	min := d / time.Minute

 	c.Logf("[LOG] %d:%02d.%03d %s", min, sec%60, msec%1000, s)
 	return nil
 }

 // Error logs an error into the test error output and marks the test as failed.
 // The provided arguments are assembled together into a string with fmt.Sprint.
 func (c *C) Error(args ...interface{}) {
 	c.logCaller(1)
 	c.logString(fmt.Sprint("Error: ", fmt.Sprint(args...)))
 	c.logNewLine()
 	c.Fail()
 }

 // Errorf logs an error into the test error output and marks the test as failed.
 // The provided arguments are assembled together into a string with fmt.Sprintf.
 func (c *C) Errorf(format string, args ...interface{}) {
 	c.logCaller(1)
 	c.logString(fmt.Sprintf("Error: "+format, args...))
 	c.logNewLine()
 	c.Fail()
 }

 // Fatal logs an error into the test error output, marks the test as failed, and
 // stops the test execution. The provided arguments are assembled together into
 // a string with fmt.Sprint.
 func (c *C) Fatal(args ...interface{}) {
 	c.logCaller(1)
 	c.logString(fmt.Sprint("Error: ", fmt.Sprint(args...)))
 	c.logNewLine()
 	c.FailNow()
 }

 // Fatlaf logs an error into the test error output, marks the test as failed, and
 // stops the test execution. The provided arguments are assembled together into
 // a string with fmt.Sprintf.
 func (c *C) Fatalf(format string, args ...interface{}) {
 	c.logCaller(1)
 	c.logString(fmt.Sprint("Error: ", fmt.Sprintf(format, args...)))
 	c.logNewLine()
 	c.FailNow()
 }

 // -----------------------------------------------------------------------
 // Generic checks and assertions based on checkers.

 // Check verifies if the first value matches the expected value according
 // to the provided checker. If they do not match, an error is logged, the
 // test is marked as failed, and the test execution continues.
 //
 // Some checkers may not need the expected argument (e.g. IsNil).
 //
 // Extra arguments provided to the function are logged next to the reported
 // problem when the matching fails.
 func (c *C) Check(obtained interface{}, checker Checker, args ...interface{}) bool {
 	return c.internalCheck("Check", obtained, checker, args...)
 }

 // Assert ensures that the first value matches the expected value according
 // to the provided checker. If they do not match, an error is logged, the
 // test is marked as failed, and the test execution stops.
 //
 // Some checkers may not need the expected argument (e.g. IsNil).
 //
 // Extra arguments provided to the function are logged next to the reported
 // problem when the matching fails.
 func (c *C) Assert(obtained interface{}, checker Checker, args ...interface{}) {
 	if !c.internalCheck("Assert", obtained, checker, args...) {
 		c.stopNow()
 	}
 }

 func (c *C) internalCheck(funcName string, obtained interface{}, checker Checker, args ...interface{}) bool {
 	if checker == nil {
 		c.logCaller(2)
 		c.logString(fmt.Sprintf("%s(obtained, nil!?, ...):", funcName))
 		c.logString("Oops.. you've provided a nil checker!")
 		c.logNewLine()
 		c.Fail()
 		return false
 	}

 	// If the last argument is a bug info, extract it out.
 	var comment CommentInterface
 	if len(args) > 0 {
 		if c, ok := args[len(args)-1].(CommentInterface); ok {
 			comment = c
 			args = args[:len(args)-1]
 		}
 	}

 	params := append([]interface{}{obtained}, args...)
 	info := checker.Info()

 	if len(params) != len(info.Params) {
 		names := append([]string{info.Params[0], info.Name}, info.Params[1:]...)
 		c.logCaller(2)
 		c.logString(fmt.Sprintf("%s(%s):", funcName, strings.Join(names, ", ")))
 		c.logString(fmt.Sprintf("Wrong number of parameters for %s: want %d, got %d", info.Name, len(names), len(params)+1))
 		c.logNewLine()
 		c.Fail()
 		return false
 	}

 	// Copy since it may be mutated by Check.
 	names := append([]string{}, info.Params...)

 	// Do the actual check.
 	result, error := checker.Check(params, names)
 	if !result || error != "" {
 		c.logCaller(2)
 		for i := 0; i != len(params); i++ {
 			c.logValue(names[i], params[i])
 		}
 		if comment != nil {
 			c.logString(comment.CheckCommentString())
 		}
 		if error != "" {
 			c.logString(error)
 		}
 		c.logNewLine()
 		c.Fail()
 		return false
 	}
 	return true
 }
	package check

	import (
	"fmt"
	"strings"
	"time"
	)

	// TestName returns the current test name in the form "SuiteName.TestName"
	func (c *C) TestName() string {
	return c.testName
	}

	// -----------------------------------------------------------------------
	// Basic succeeding/failing logic.

	// Failed returns whether the currently running test has already failed.
	func (c *C) Failed() bool {
	return c.status() == failedSt
	}

	// Fail marks the currently running test as failed.
	//
	// Something ought to have been previously logged so the developer can tell
	// what went wrong. The higher level helper functions will fail the test
	// and do the logging properly.
	func (c *C) Fail() {
	c.setStatus(failedSt)
	}

	// FailNow marks the currently running test as failed and stops running it.
	// Something ought to have been previously logged so the developer can tell
	// what went wrong. The higher level helper functions will fail the test
	// and do the logging properly.
	func (c *C) FailNow() {
	c.Fail()
	c.stopNow()
	}

	// Succeed marks the currently running test as succeeded, undoing any
	// previous failures.
	func (c *C) Succeed() {
	c.setStatus(succeededSt)
	}

	// SucceedNow marks the currently running test as succeeded, undoing any
	// previous failures, and stops running the test.
	func (c *C) SucceedNow() {
	c.Succeed()
	c.stopNow()
	}

	// ExpectFailure informs that the running test is knowingly broken for
	// the provided reason. If the test does not fail, an error will be reported
	// to raise attention to this fact. This method is useful to temporarily
	// disable tests which cover well known problems until a better time to
	// fix the problem is found, without forgetting about the fact that a
	// failure still exists.
	func (c *C) ExpectFailure(reason string) {
	if reason == "" {
	panic("Missing reason why the test is expected to fail")
	}
	c.mustFail = true
	c.reason = reason
	}

	// Skip skips the running test for the provided reason. If run from within
	// SetUpTest, the individual test being set up will be skipped, and if run
	// from within SetUpSuite, the whole suite is skipped.
	func (c *C) Skip(reason string) {
	if reason == "" {
	panic("Missing reason why the test is being skipped")
	}
	c.reason = reason
	c.setStatus(skippedSt)
	c.stopNow()
	}

	// -----------------------------------------------------------------------
	// Basic logging.

	// GetTestLog returns the current test error output.
	func (c *C) GetTestLog() string {
	return c.logb.String()
	}

	// Log logs some information into the test error output.
	// The provided arguments are assembled together into a string with fmt.Sprint.
	func (c *C) Log(args ...interface{}) {
	c.log(args...)
	}

	// Log logs some information into the test error output.
	// The provided arguments are assembled together into a string with fmt.Sprintf.
	func (c *C) Logf(format string, args ...interface{}) {
	c.logf(format, args...)
	}

	// Output enables *C to be used as a logger in functions that require only
	// the minimum interface of *log.Logger.
	func (c *C) Output(calldepth int, s string) error {
	d := time.Now().Sub(c.startTime)
	msec := d / time.Millisecond
	sec := d / time.Second
	min := d / time.Minute

	c.Logf("[LOG] %d:%02d.%03d %s", min, sec%60, msec%1000, s)
	return nil
	}

	// Error logs an error into the test error output and marks the test as failed.
	// The provided arguments are assembled together into a string with fmt.Sprint.
	func (c *C) Error(args ...interface{}) {
	c.logCaller(1)
	c.logString(fmt.Sprint("Error: ", fmt.Sprint(args...)))
	c.logNewLine()
	c.Fail()
	}

	// Errorf logs an error into the test error output and marks the test as failed.
	// The provided arguments are assembled together into a string with fmt.Sprintf.
	func (c *C) Errorf(format string, args ...interface{}) {
	c.logCaller(1)
	c.logString(fmt.Sprintf("Error: "+format, args...))
	c.logNewLine()
	c.Fail()
	}

	// Fatal logs an error into the test error output, marks the test as failed, and
	// stops the test execution. The provided arguments are assembled together into
	// a string with fmt.Sprint.
	func (c *C) Fatal(args ...interface{}) {
	c.logCaller(1)
	c.logString(fmt.Sprint("Error: ", fmt.Sprint(args...)))
	c.logNewLine()
	c.FailNow()
	}

	// Fatlaf logs an error into the test error output, marks the test as failed, and
	// stops the test execution. The provided arguments are assembled together into
	// a string with fmt.Sprintf.
	func (c *C) Fatalf(format string, args ...interface{}) {
	c.logCaller(1)
	c.logString(fmt.Sprint("Error: ", fmt.Sprintf(format, args...)))
	c.logNewLine()
	c.FailNow()
	}

	// -----------------------------------------------------------------------
	// Generic checks and assertions based on checkers.

	// Check verifies if the first value matches the expected value according
	// to the provided checker. If they do not match, an error is logged, the
	// test is marked as failed, and the test execution continues.
	//
	// Some checkers may not need the expected argument (e.g. IsNil).
	//
	// Extra arguments provided to the function are logged next to the reported
	// problem when the matching fails.
	func (c *C) Check(obtained interface{}, checker Checker, args ...interface{}) bool {
	return c.internalCheck("Check", obtained, checker, args...)
	}

	// Assert ensures that the first value matches the expected value according
	// to the provided checker. If they do not match, an error is logged, the
	// test is marked as failed, and the test execution stops.
	//
	// Some checkers may not need the expected argument (e.g. IsNil).
	//
	// Extra arguments provided to the function are logged next to the reported
	// problem when the matching fails.
	func (c *C) Assert(obtained interface{}, checker Checker, args ...interface{}) {
	if !c.internalCheck("Assert", obtained, checker, args...) {
	c.stopNow()
	}
	}

	func (c *C) internalCheck(funcName string, obtained interface{}, checker Checker, args ...interface{}) bool {
	if checker == nil {
	c.logCaller(2)
	c.logString(fmt.Sprintf("%s(obtained, nil!?, ...):", funcName))
	c.logString("Oops.. you've provided a nil checker!")
	c.logNewLine()
	c.Fail()
	return false
	}

	// If the last argument is a bug info, extract it out.
	var comment CommentInterface
	if len(args) > 0 {
	if c, ok := args[len(args)-1].(CommentInterface); ok {
	comment = c
	args = args[:len(args)-1]
	}
	}

	params := append([]interface{}{obtained}, args...)
	info := checker.Info()

	if len(params) != len(info.Params) {
	names := append([]string{info.Params[0], info.Name}, info.Params[1:]...)
	c.logCaller(2)
	c.logString(fmt.Sprintf("%s(%s):", funcName, strings.Join(names, ", ")))
	c.logString(fmt.Sprintf("Wrong number of parameters for %s: want %d, got %d", info.Name, len(names), len(params)+1))
	c.logNewLine()
	c.Fail()
	return false
	}

	// Copy since it may be mutated by Check.
	names := append([]string{}, info.Params...)

	// Do the actual check.
	result, error := checker.Check(params, names)
	if !result \|\| error != "" {
	c.logCaller(2)
	for i := 0; i != len(params); i++ {
	c.logValue(names[i], params[i])
	}
	if comment != nil {
	c.logString(comment.CheckCommentString())
	}
	if error != "" {
	c.logString(error)
	}
	c.logNewLine()
	c.Fail()
	return false
	}
	return true
	}