vendor/github.com/spf13/jwalterweatherman/thatswhyyoualwaysleaveanote.go - gddo - Git at Google

 // Copyright © 2016 Steve Francia <spf@spf13.com>.
 //
 // Use of this source code is governed by an MIT-style
 // license that can be found in the LICENSE file.

 package jwalterweatherman

 import (
 	"fmt"
 	"io"
 	"io/ioutil"
 	"log"
 	"os"
 	"sync/atomic"
 )

 // Level describes the chosen log level between
 // debug and critical.
 type Level int

 type NotePad struct {
 	Handle  io.Writer
 	Level   Level
 	Prefix  string
 	Logger  **log.Logger
 	counter uint64
 }

 func (n *NotePad) incr() {
 	atomic.AddUint64(&n.counter, 1)
 }

 func (n *NotePad) resetCounter() {
 	atomic.StoreUint64(&n.counter, 0)
 }

 func (n *NotePad) getCount() uint64 {
 	return atomic.LoadUint64(&n.counter)
 }

 type countingWriter struct {
 	incrFunc func()
 }

 func (cw *countingWriter) Write(p []byte) (n int, err error) {
 	cw.incrFunc()

 	return 0, nil
 }

 // Feedback is special. It writes plainly to the output while
 // logging with the standard extra information (date, file, etc)
 // Only Println and Printf are currently provided for this
 type Feedback struct{}

 const (
 	LevelTrace Level = iota
 	LevelDebug
 	LevelInfo
 	LevelWarn
 	LevelError
 	LevelCritical
 	LevelFatal
 	DefaultLogThreshold    = LevelWarn
 	DefaultStdoutThreshold = LevelError
 )

 var (
 	TRACE      *log.Logger
 	DEBUG      *log.Logger
 	INFO       *log.Logger
 	WARN       *log.Logger
 	ERROR      *log.Logger
 	CRITICAL   *log.Logger
 	FATAL      *log.Logger
 	LOG        *log.Logger
 	FEEDBACK   Feedback
 	LogHandle  io.Writer  = ioutil.Discard
 	OutHandle  io.Writer  = os.Stdout
 	BothHandle io.Writer  = io.MultiWriter(LogHandle, OutHandle)
 	NotePads   []*NotePad = []*NotePad{trace, debug, info, warn, err, critical, fatal}

 	trace           *NotePad = &NotePad{Level: LevelTrace, Handle: os.Stdout, Logger: &TRACE, Prefix: "TRACE: "}
 	debug           *NotePad = &NotePad{Level: LevelDebug, Handle: os.Stdout, Logger: &DEBUG, Prefix: "DEBUG: "}
 	info            *NotePad = &NotePad{Level: LevelInfo, Handle: os.Stdout, Logger: &INFO, Prefix: "INFO: "}
 	warn            *NotePad = &NotePad{Level: LevelWarn, Handle: os.Stdout, Logger: &WARN, Prefix: "WARN: "}
 	err             *NotePad = &NotePad{Level: LevelError, Handle: os.Stdout, Logger: &ERROR, Prefix: "ERROR: "}
 	critical        *NotePad = &NotePad{Level: LevelCritical, Handle: os.Stdout, Logger: &CRITICAL, Prefix: "CRITICAL: "}
 	fatal           *NotePad = &NotePad{Level: LevelFatal, Handle: os.Stdout, Logger: &FATAL, Prefix: "FATAL: "}
 	logThreshold    Level    = DefaultLogThreshold
 	outputThreshold Level    = DefaultStdoutThreshold
 )

 const (
 	DATE  = log.Ldate
 	TIME  = log.Ltime
 	SFILE = log.Lshortfile
 	LFILE = log.Llongfile
 	MSEC  = log.Lmicroseconds
 )

 var logFlags = DATE | TIME | SFILE

 func init() {
 	SetStdoutThreshold(DefaultStdoutThreshold)
 }

 // initialize will setup the jWalterWeatherman standard approach of providing the user
 // some feedback and logging a potentially different amount based on independent log and output thresholds.
 // By default the output has a lower threshold than logged
 // Don't use if you have manually set the Handles of the different levels as it will overwrite them.
 func initialize() {
 	BothHandle = io.MultiWriter(LogHandle, OutHandle)

 	for _, n := range NotePads {
 		if n.Level < outputThreshold && n.Level < logThreshold {
 			n.Handle = ioutil.Discard
 		} else if n.Level >= outputThreshold && n.Level >= logThreshold {
 			n.Handle = BothHandle
 		} else if n.Level >= outputThreshold && n.Level < logThreshold {
 			n.Handle = OutHandle
 		} else {
 			n.Handle = LogHandle
 		}
 	}

 	for _, n := range NotePads {
 		n.Handle = io.MultiWriter(n.Handle, &countingWriter{n.incr})
 		*n.Logger = log.New(n.Handle, n.Prefix, logFlags)
 	}

 	LOG = log.New(LogHandle,
 		"LOG:   ",
 		logFlags)
 }

 // Set the log Flags (Available flag: DATE, TIME, SFILE, LFILE and MSEC)
 func SetLogFlag(flags int) {
 	logFlags = flags
 	initialize()
 }

 // Level returns the current global log threshold.
 func LogThreshold() Level {
 	return logThreshold
 }

 // Level returns the current global output threshold.
 func StdoutThreshold() Level {
 	return outputThreshold
 }

 // Ensures that the level provided is within the bounds of available levels
 func levelCheck(level Level) Level {
 	switch {
 	case level <= LevelTrace:
 		return LevelTrace
 	case level >= LevelFatal:
 		return LevelFatal
 	default:
 		return level
 	}
 }

 // Establishes a threshold where anything matching or above will be logged
 func SetLogThreshold(level Level) {
 	logThreshold = levelCheck(level)
 	initialize()
 }

 // Establishes a threshold where anything matching or above will be output
 func SetStdoutThreshold(level Level) {
 	outputThreshold = levelCheck(level)
 	initialize()
 }

 // Conveniently Sets the Log Handle to a io.writer created for the file behind the given filepath
 // Will only append to this file
 func SetLogFile(path string) {
 	file, err := os.OpenFile(path, os.O_RDWR|os.O_APPEND|os.O_CREATE, 0666)
 	if err != nil {
 		CRITICAL.Println("Failed to open log file:", path, err)
 		os.Exit(-1)
 	}

 	INFO.Println("Logging to", file.Name())

 	LogHandle = file
 	initialize()
 }

 // Conveniently Creates a temporary file and sets the Log Handle to a io.writer created for it
 func UseTempLogFile(prefix string) {
 	file, err := ioutil.TempFile(os.TempDir(), prefix)
 	if err != nil {
 		CRITICAL.Println(err)
 	}

 	INFO.Println("Logging to", file.Name())

 	LogHandle = file
 	initialize()
 }

 // LogCountForLevel returns the number of log invocations for a given level.
 func LogCountForLevel(l Level) uint64 {
 	for _, np := range NotePads {
 		if np.Level == l {
 			return np.getCount()
 		}
 	}
 	return 0
 }

 // LogCountForLevelsGreaterThanorEqualTo returns the number of log invocations
 // greater than or equal to a given level threshold.
 func LogCountForLevelsGreaterThanorEqualTo(threshold Level) uint64 {
 	var cnt uint64
 	for _, np := range NotePads {
 		if np.Level >= threshold {
 			cnt += np.getCount()
 		}
 	}
 	return cnt
 }

 // ResetLogCounters resets the invocation counters for all levels.
 func ResetLogCounters() {
 	for _, np := range NotePads {
 		np.resetCounter()
 	}
 }

 // Disables logging for the entire JWW system
 func DiscardLogging() {
 	LogHandle = ioutil.Discard
 	initialize()
 }

 // Feedback is special. It writes plainly to the output while
 // logging with the standard extra information (date, file, etc)
 // Only Println and Printf are currently provided for this
 func (fb *Feedback) Println(v ...interface{}) {
 	s := fmt.Sprintln(v...)
 	fmt.Print(s)
 	LOG.Output(2, s)
 }

 // Feedback is special. It writes plainly to the output while
 // logging with the standard extra information (date, file, etc)
 // Only Println and Printf are currently provided for this
 func (fb *Feedback) Printf(format string, v ...interface{}) {
 	s := fmt.Sprintf(format, v...)
 	fmt.Print(s)
 	LOG.Output(2, s)
 }
	// Copyright © 2016 Steve Francia <spf@spf13.com>.
	//
	// Use of this source code is governed by an MIT-style
	// license that can be found in the LICENSE file.

	package jwalterweatherman

	import (
	"fmt"
	"io"
	"io/ioutil"
	"log"
	"os"
	"sync/atomic"
	)

	// Level describes the chosen log level between
	// debug and critical.
	type Level int

	type NotePad struct {
	Handle io.Writer
	Level Level
	Prefix string
	Logger **log.Logger
	counter uint64
	}

	func (n *NotePad) incr() {
	atomic.AddUint64(&n.counter, 1)
	}

	func (n *NotePad) resetCounter() {
	atomic.StoreUint64(&n.counter, 0)
	}

	func (n *NotePad) getCount() uint64 {
	return atomic.LoadUint64(&n.counter)
	}

	type countingWriter struct {
	incrFunc func()
	}

	func (cw *countingWriter) Write(p []byte) (n int, err error) {
	cw.incrFunc()

	return 0, nil
	}

	// Feedback is special. It writes plainly to the output while
	// logging with the standard extra information (date, file, etc)
	// Only Println and Printf are currently provided for this
	type Feedback struct{}

	const (
	LevelTrace Level = iota
	LevelDebug
	LevelInfo
	LevelWarn
	LevelError
	LevelCritical
	LevelFatal
	DefaultLogThreshold = LevelWarn
	DefaultStdoutThreshold = LevelError
	)

	var (
	TRACE *log.Logger
	DEBUG *log.Logger
	INFO *log.Logger
	WARN *log.Logger
	ERROR *log.Logger
	CRITICAL *log.Logger
	FATAL *log.Logger
	LOG *log.Logger
	FEEDBACK Feedback
	LogHandle io.Writer = ioutil.Discard
	OutHandle io.Writer = os.Stdout
	BothHandle io.Writer = io.MultiWriter(LogHandle, OutHandle)
	NotePads []NotePad = []NotePad{trace, debug, info, warn, err, critical, fatal}

	trace *NotePad = &NotePad{Level: LevelTrace, Handle: os.Stdout, Logger: &TRACE, Prefix: "TRACE: "}
	debug *NotePad = &NotePad{Level: LevelDebug, Handle: os.Stdout, Logger: &DEBUG, Prefix: "DEBUG: "}
	info *NotePad = &NotePad{Level: LevelInfo, Handle: os.Stdout, Logger: &INFO, Prefix: "INFO: "}
	warn *NotePad = &NotePad{Level: LevelWarn, Handle: os.Stdout, Logger: &WARN, Prefix: "WARN: "}
	err *NotePad = &NotePad{Level: LevelError, Handle: os.Stdout, Logger: &ERROR, Prefix: "ERROR: "}
	critical *NotePad = &NotePad{Level: LevelCritical, Handle: os.Stdout, Logger: &CRITICAL, Prefix: "CRITICAL: "}
	fatal *NotePad = &NotePad{Level: LevelFatal, Handle: os.Stdout, Logger: &FATAL, Prefix: "FATAL: "}
	logThreshold Level = DefaultLogThreshold
	outputThreshold Level = DefaultStdoutThreshold
	)

	const (
	DATE = log.Ldate
	TIME = log.Ltime
	SFILE = log.Lshortfile
	LFILE = log.Llongfile
	MSEC = log.Lmicroseconds
	)

	var logFlags = DATE \| TIME \| SFILE

	func init() {
	SetStdoutThreshold(DefaultStdoutThreshold)
	}

	// initialize will setup the jWalterWeatherman standard approach of providing the user
	// some feedback and logging a potentially different amount based on independent log and output thresholds.
	// By default the output has a lower threshold than logged
	// Don't use if you have manually set the Handles of the different levels as it will overwrite them.
	func initialize() {
	BothHandle = io.MultiWriter(LogHandle, OutHandle)

	for _, n := range NotePads {
	if n.Level < outputThreshold && n.Level < logThreshold {
	n.Handle = ioutil.Discard
	} else if n.Level >= outputThreshold && n.Level >= logThreshold {
	n.Handle = BothHandle
	} else if n.Level >= outputThreshold && n.Level < logThreshold {
	n.Handle = OutHandle
	} else {
	n.Handle = LogHandle
	}
	}

	for _, n := range NotePads {
	n.Handle = io.MultiWriter(n.Handle, &countingWriter{n.incr})
	*n.Logger = log.New(n.Handle, n.Prefix, logFlags)
	}

	LOG = log.New(LogHandle,
	"LOG: ",
	logFlags)
	}

	// Set the log Flags (Available flag: DATE, TIME, SFILE, LFILE and MSEC)
	func SetLogFlag(flags int) {
	logFlags = flags
	initialize()
	}

	// Level returns the current global log threshold.
	func LogThreshold() Level {
	return logThreshold
	}

	// Level returns the current global output threshold.
	func StdoutThreshold() Level {
	return outputThreshold
	}

	// Ensures that the level provided is within the bounds of available levels
	func levelCheck(level Level) Level {
	switch {
	case level <= LevelTrace:
	return LevelTrace
	case level >= LevelFatal:
	return LevelFatal
	default:
	return level
	}
	}

	// Establishes a threshold where anything matching or above will be logged
	func SetLogThreshold(level Level) {
	logThreshold = levelCheck(level)
	initialize()
	}

	// Establishes a threshold where anything matching or above will be output
	func SetStdoutThreshold(level Level) {
	outputThreshold = levelCheck(level)
	initialize()
	}

	// Conveniently Sets the Log Handle to a io.writer created for the file behind the given filepath
	// Will only append to this file
	func SetLogFile(path string) {
	file, err := os.OpenFile(path, os.O_RDWR\|os.O_APPEND\|os.O_CREATE, 0666)
	if err != nil {
	CRITICAL.Println("Failed to open log file:", path, err)
	os.Exit(-1)
	}

	INFO.Println("Logging to", file.Name())

	LogHandle = file
	initialize()
	}

	// Conveniently Creates a temporary file and sets the Log Handle to a io.writer created for it
	func UseTempLogFile(prefix string) {
	file, err := ioutil.TempFile(os.TempDir(), prefix)
	if err != nil {
	CRITICAL.Println(err)
	}

	INFO.Println("Logging to", file.Name())

	LogHandle = file
	initialize()
	}

	// LogCountForLevel returns the number of log invocations for a given level.
	func LogCountForLevel(l Level) uint64 {
	for _, np := range NotePads {
	if np.Level == l {
	return np.getCount()
	}
	}
	return 0
	}

	// LogCountForLevelsGreaterThanorEqualTo returns the number of log invocations
	// greater than or equal to a given level threshold.
	func LogCountForLevelsGreaterThanorEqualTo(threshold Level) uint64 {
	var cnt uint64
	for _, np := range NotePads {
	if np.Level >= threshold {
	cnt += np.getCount()
	}
	}
	return cnt
	}

	// ResetLogCounters resets the invocation counters for all levels.
	func ResetLogCounters() {
	for _, np := range NotePads {
	np.resetCounter()
	}
	}

	// Disables logging for the entire JWW system
	func DiscardLogging() {
	LogHandle = ioutil.Discard
	initialize()
	}

	// Feedback is special. It writes plainly to the output while
	// logging with the standard extra information (date, file, etc)
	// Only Println and Printf are currently provided for this
	func (fb *Feedback) Println(v ...interface{}) {
	s := fmt.Sprintln(v...)
	fmt.Print(s)
	LOG.Output(2, s)
	}

	// Feedback is special. It writes plainly to the output while
	// logging with the standard extra information (date, file, etc)
	// Only Println and Printf are currently provided for this
	func (fb *Feedback) Printf(format string, v ...interface{}) {
	s := fmt.Sprintf(format, v...)
	fmt.Print(s)
	LOG.Output(2, s)
	}