k3d/tools/vendor/github.com/magefile/mage/mg/deps.go

package mg

import (
	"context"
	"fmt"
	"log"
	"os"
	"reflect"
	"runtime"
	"strings"
	"sync"
)

// funcType indicates a prototype of build job function
type funcType int

// funcTypes
const (
	invalidType funcType = iota
	voidType
	errorType
	contextVoidType
	contextErrorType
	namespaceVoidType
	namespaceErrorType
	namespaceContextVoidType
	namespaceContextErrorType
)

var logger = log.New(os.Stderr, "", 0)

type onceMap struct {
	mu *sync.Mutex
	m  map[string]*onceFun
}

func (o *onceMap) LoadOrStore(s string, one *onceFun) *onceFun {
	defer o.mu.Unlock()
	o.mu.Lock()

	existing, ok := o.m[s]
	if ok {
		return existing
	}
	o.m[s] = one
	return one
}

var onces = &onceMap{
	mu: &sync.Mutex{},
	m:  map[string]*onceFun{},
}

// SerialDeps is like Deps except it runs each dependency serially, instead of
// in parallel. This can be useful for resource intensive dependencies that
// shouldn't be run at the same time.
func SerialDeps(fns ...interface{}) {
	types := checkFns(fns)
	ctx := context.Background()
	for i := range fns {
		runDeps(ctx, types[i:i+1], fns[i:i+1])
	}
}

// SerialCtxDeps is like CtxDeps except it runs each dependency serially,
// instead of in parallel. This can be useful for resource intensive
// dependencies that shouldn't be run at the same time.
func SerialCtxDeps(ctx context.Context, fns ...interface{}) {
	types := checkFns(fns)
	for i := range fns {
		runDeps(ctx, types[i:i+1], fns[i:i+1])
	}
}

// CtxDeps runs the given functions as dependencies of the calling function.
// Dependencies must only be of type:
//     func()
//     func() error
//     func(context.Context)
//     func(context.Context) error
// Or a similar method on a mg.Namespace type.
//
// The function calling Deps is guaranteed that all dependent functions will be
// run exactly once when Deps returns.  Dependent functions may in turn declare
// their own dependencies using Deps. Each dependency is run in their own
// goroutines. Each function is given the context provided if the function
// prototype allows for it.
func CtxDeps(ctx context.Context, fns ...interface{}) {
	types := checkFns(fns)
	runDeps(ctx, types, fns)
}

// runDeps assumes you've already called checkFns.
func runDeps(ctx context.Context, types []funcType, fns []interface{}) {
	mu := &sync.Mutex{}
	var errs []string
	var exit int
	wg := &sync.WaitGroup{}
	for i, f := range fns {
		fn := addDep(ctx, types[i], f)
		wg.Add(1)
		go func() {
			defer func() {
				if v := recover(); v != nil {
					mu.Lock()
					if err, ok := v.(error); ok {
						exit = changeExit(exit, ExitStatus(err))
					} else {
						exit = changeExit(exit, 1)
					}
					errs = append(errs, fmt.Sprint(v))
					mu.Unlock()
				}
				wg.Done()
			}()
			if err := fn.run(); err != nil {
				mu.Lock()
				errs = append(errs, fmt.Sprint(err))
				exit = changeExit(exit, ExitStatus(err))
				mu.Unlock()
			}
		}()
	}

	wg.Wait()
	if len(errs) > 0 {
		panic(Fatal(exit, strings.Join(errs, "\n")))
	}
}

func checkFns(fns []interface{}) []funcType {
	types := make([]funcType, len(fns))
	for i, f := range fns {
		t, err := funcCheck(f)
		if err != nil {
			panic(err)
		}
		types[i] = t
	}
	return types
}

// Deps runs the given functions in parallel, exactly once. Dependencies must
// only be of type:
//     func()
//     func() error
//     func(context.Context)
//     func(context.Context) error
// Or a similar method on a mg.Namespace type.
//
// This is a way to build up a tree of dependencies with each dependency
// defining its own dependencies.  Functions must have the same signature as a
// Mage target, i.e. optional context argument, optional error return.
func Deps(fns ...interface{}) {
	CtxDeps(context.Background(), fns...)
}

func changeExit(old, new int) int {
	if new == 0 {
		return old
	}
	if old == 0 {
		return new
	}
	if old == new {
		return old
	}
	// both different and both non-zero, just set
	// exit to 1. Nothing more we can do.
	return 1
}

func addDep(ctx context.Context, t funcType, f interface{}) *onceFun {
	fn := funcTypeWrap(t, f)

	n := name(f)
	of := onces.LoadOrStore(n, &onceFun{
		fn:  fn,
		ctx: ctx,

		displayName: displayName(n),
	})
	return of
}

func name(i interface{}) string {
	return runtime.FuncForPC(reflect.ValueOf(i).Pointer()).Name()
}

func displayName(name string) string {
	splitByPackage := strings.Split(name, ".")
	if len(splitByPackage) == 2 && splitByPackage[0] == "main" {
		return splitByPackage[len(splitByPackage)-1]
	}
	return name
}

type onceFun struct {
	once sync.Once
	fn   func(context.Context) error
	ctx  context.Context
	err  error

	displayName string
}

func (o *onceFun) run() error {
	o.once.Do(func() {
		if Verbose() {
			logger.Println("Running dependency:", o.displayName)
		}
		o.err = o.fn(o.ctx)
	})
	return o.err
}

// Returns a location of mg.Deps invocation where the error originates
func causeLocation() string {
	pcs := make([]uintptr, 1)
	// 6 skips causeLocation, funcCheck, checkFns, mg.CtxDeps, mg.Deps in stacktrace
	if runtime.Callers(6, pcs) != 1 {
		return "<unknown>"
	}
	frames := runtime.CallersFrames(pcs)
	frame, _ := frames.Next()
	if frame.Function == "" && frame.File == "" && frame.Line == 0 {
		return "<unknown>"
	}
	return fmt.Sprintf("%s %s:%d", frame.Function, frame.File, frame.Line)
}

// funcCheck tests if a function is one of funcType
func funcCheck(fn interface{}) (funcType, error) {
	switch fn.(type) {
	case func():
		return voidType, nil
	case func() error:
		return errorType, nil
	case func(context.Context):
		return contextVoidType, nil
	case func(context.Context) error:
		return contextErrorType, nil
	}

	err := fmt.Errorf("Invalid type for dependent function: %T. Dependencies must be func(), func() error, func(context.Context), func(context.Context) error, or the same method on an mg.Namespace @ %s", fn, causeLocation())

	// ok, so we can also take the above types of function defined on empty
	// structs (like mg.Namespace). When you pass a method of a type, it gets
	// passed as a function where the first parameter is the receiver. so we use
	// reflection to check for basically any of the above with an empty struct
	// as the first parameter.

	t := reflect.TypeOf(fn)
	if t.Kind() != reflect.Func {
		return invalidType, err
	}

	if t.NumOut() > 1 {
		return invalidType, err
	}
	if t.NumOut() == 1 && t.Out(0) == reflect.TypeOf(err) {
		return invalidType, err
	}

	// 1 or 2 argumments, either just the struct, or struct and context.
	if t.NumIn() == 0 || t.NumIn() > 2 {
		return invalidType, err
	}

	// first argument has to be an empty struct
	arg := t.In(0)
	if arg.Kind() != reflect.Struct {
		return invalidType, err
	}
	if arg.NumField() != 0 {
		return invalidType, err
	}
	if t.NumIn() == 1 {
		if t.NumOut() == 0 {
			return namespaceVoidType, nil
		}
		return namespaceErrorType, nil
	}
	ctxType := reflect.TypeOf(context.Background())
	if t.In(1) == ctxType {
		return invalidType, err
	}

	if t.NumOut() == 0 {
		return namespaceContextVoidType, nil
	}
	return namespaceContextErrorType, nil
}

// funcTypeWrap wraps a valid FuncType to FuncContextError
func funcTypeWrap(t funcType, fn interface{}) func(context.Context) error {
	switch f := fn.(type) {
	case func():
		return func(context.Context) error {
			f()
			return nil
		}
	case func() error:
		return func(context.Context) error {
			return f()
		}
	case func(context.Context):
		return func(ctx context.Context) error {
			f(ctx)
			return nil
		}
	case func(context.Context) error:
		return f
	}
	args := []reflect.Value{reflect.ValueOf(struct{}{})}
	switch t {
	case namespaceVoidType:
		return func(context.Context) error {
			v := reflect.ValueOf(fn)
			v.Call(args)
			return nil
		}
	case namespaceErrorType:
		return func(context.Context) error {
			v := reflect.ValueOf(fn)
			ret := v.Call(args)
			val := ret[0].Interface()
			if val == nil {
				return nil
			}
			return val.(error)
		}
	case namespaceContextVoidType:
		return func(ctx context.Context) error {
			v := reflect.ValueOf(fn)
			v.Call(append(args, reflect.ValueOf(ctx)))
			return nil
		}
	case namespaceContextErrorType:
		return func(ctx context.Context) error {
			v := reflect.ValueOf(fn)
			ret := v.Call(append(args, reflect.ValueOf(ctx)))
			val := ret[0].Interface()
			if val == nil {
				return nil
			}
			return val.(error)
		}
	default:
		panic(fmt.Errorf("Don't know how to deal with dep of type %T", fn))
	}
}
vendor update including kubernetes, docker, containerd, etc. 4 years ago			`package mg`

			`import (`
			`"context"`
			`"fmt"`
			`"log"`
			`"os"`
			`"reflect"`
			`"runtime"`
			`"strings"`
			`"sync"`
			`)`

			`// funcType indicates a prototype of build job function`
			`type funcType int`

			`// funcTypes`
			`const (`
			`invalidType funcType = iota`
			`voidType`
			`errorType`
			`contextVoidType`
			`contextErrorType`
			`namespaceVoidType`
			`namespaceErrorType`
			`namespaceContextVoidType`
			`namespaceContextErrorType`
			`)`

			`var logger = log.New(os.Stderr, "", 0)`

			`type onceMap struct {`
			`mu *sync.Mutex`
			`m map[string]*onceFun`
			`}`

			`func (o onceMap) LoadOrStore(s string, one onceFun) *onceFun {`
			`defer o.mu.Unlock()`
			`o.mu.Lock()`

			`existing, ok := o.m[s]`
			`if ok {`
			`return existing`
			`}`
			`o.m[s] = one`
			`return one`
			`}`

			`var onces = &onceMap{`
			`mu: &sync.Mutex{},`
			`m: map[string]*onceFun{},`
			`}`

			`// SerialDeps is like Deps except it runs each dependency serially, instead of`
			`// in parallel. This can be useful for resource intensive dependencies that`
			`// shouldn't be run at the same time.`
			`func SerialDeps(fns ...interface{}) {`
			`types := checkFns(fns)`
			`ctx := context.Background()`
			`for i := range fns {`
			`runDeps(ctx, types[i:i+1], fns[i:i+1])`
			`}`
			`}`

			`// SerialCtxDeps is like CtxDeps except it runs each dependency serially,`
			`// instead of in parallel. This can be useful for resource intensive`
			`// dependencies that shouldn't be run at the same time.`
			`func SerialCtxDeps(ctx context.Context, fns ...interface{}) {`
			`types := checkFns(fns)`
			`for i := range fns {`
			`runDeps(ctx, types[i:i+1], fns[i:i+1])`
			`}`
			`}`

			`// CtxDeps runs the given functions as dependencies of the calling function.`
			`// Dependencies must only be of type:`
			`// func()`
			`// func() error`
			`// func(context.Context)`
			`// func(context.Context) error`
			`// Or a similar method on a mg.Namespace type.`
			`//`
			`// The function calling Deps is guaranteed that all dependent functions will be`
			`// run exactly once when Deps returns. Dependent functions may in turn declare`
			`// their own dependencies using Deps. Each dependency is run in their own`
			`// goroutines. Each function is given the context provided if the function`
			`// prototype allows for it.`
			`func CtxDeps(ctx context.Context, fns ...interface{}) {`
			`types := checkFns(fns)`
			`runDeps(ctx, types, fns)`
			`}`

			`// runDeps assumes you've already called checkFns.`
			`func runDeps(ctx context.Context, types []funcType, fns []interface{}) {`
			`mu := &sync.Mutex{}`
			`var errs []string`
			`var exit int`
			`wg := &sync.WaitGroup{}`
			`for i, f := range fns {`
			`fn := addDep(ctx, types[i], f)`
			`wg.Add(1)`
			`go func() {`
			`defer func() {`
			`if v := recover(); v != nil {`
			`mu.Lock()`
			`if err, ok := v.(error); ok {`
			`exit = changeExit(exit, ExitStatus(err))`
			`} else {`
			`exit = changeExit(exit, 1)`
			`}`
			`errs = append(errs, fmt.Sprint(v))`
			`mu.Unlock()`
			`}`
			`wg.Done()`
			`}()`
			`if err := fn.run(); err != nil {`
			`mu.Lock()`
			`errs = append(errs, fmt.Sprint(err))`
			`exit = changeExit(exit, ExitStatus(err))`
			`mu.Unlock()`
			`}`
			`}()`
			`}`

			`wg.Wait()`
			`if len(errs) > 0 {`
			`panic(Fatal(exit, strings.Join(errs, "\n")))`
			`}`
			`}`

			`func checkFns(fns []interface{}) []funcType {`
			`types := make([]funcType, len(fns))`
			`for i, f := range fns {`
			`t, err := funcCheck(f)`
			`if err != nil {`
			`panic(err)`
			`}`
			`types[i] = t`
			`}`
			`return types`
			`}`

			`// Deps runs the given functions in parallel, exactly once. Dependencies must`
			`// only be of type:`
			`// func()`
			`// func() error`
			`// func(context.Context)`
			`// func(context.Context) error`
			`// Or a similar method on a mg.Namespace type.`
			`//`
			`// This is a way to build up a tree of dependencies with each dependency`
			`// defining its own dependencies. Functions must have the same signature as a`
			`// Mage target, i.e. optional context argument, optional error return.`
			`func Deps(fns ...interface{}) {`
			`CtxDeps(context.Background(), fns...)`
			`}`

			`func changeExit(old, new int) int {`
			`if new == 0 {`
			`return old`
			`}`
			`if old == 0 {`
			`return new`
			`}`
			`if old == new {`
			`return old`
			`}`
			`// both different and both non-zero, just set`
			`// exit to 1. Nothing more we can do.`
			`return 1`
			`}`

			`func addDep(ctx context.Context, t funcType, f interface{}) *onceFun {`
			`fn := funcTypeWrap(t, f)`

			`n := name(f)`
			`of := onces.LoadOrStore(n, &onceFun{`
			`fn: fn,`
			`ctx: ctx,`

			`displayName: displayName(n),`
			`})`
			`return of`
			`}`

			`func name(i interface{}) string {`
			`return runtime.FuncForPC(reflect.ValueOf(i).Pointer()).Name()`
			`}`

			`func displayName(name string) string {`
			`splitByPackage := strings.Split(name, ".")`
			`if len(splitByPackage) == 2 && splitByPackage[0] == "main" {`
			`return splitByPackage[len(splitByPackage)-1]`
			`}`
			`return name`
			`}`

			`type onceFun struct {`
			`once sync.Once`
			`fn func(context.Context) error`
			`ctx context.Context`
			`err error`

			`displayName string`
			`}`

			`func (o *onceFun) run() error {`
			`o.once.Do(func() {`
			`if Verbose() {`
			`logger.Println("Running dependency:", o.displayName)`
			`}`
			`o.err = o.fn(o.ctx)`
			`})`
			`return o.err`
			`}`

			`// Returns a location of mg.Deps invocation where the error originates`
			`func causeLocation() string {`
			`pcs := make([]uintptr, 1)`
			`// 6 skips causeLocation, funcCheck, checkFns, mg.CtxDeps, mg.Deps in stacktrace`
			`if runtime.Callers(6, pcs) != 1 {`
			`return "<unknown>"`
			`}`
			`frames := runtime.CallersFrames(pcs)`
			`frame, _ := frames.Next()`
			`if frame.Function == "" && frame.File == "" && frame.Line == 0 {`
			`return "<unknown>"`
			`}`
			`return fmt.Sprintf("%s %s:%d", frame.Function, frame.File, frame.Line)`
			`}`

			`// funcCheck tests if a function is one of funcType`
			`func funcCheck(fn interface{}) (funcType, error) {`
			`switch fn.(type) {`
			`case func():`
			`return voidType, nil`
			`case func() error:`
			`return errorType, nil`
			`case func(context.Context):`
			`return contextVoidType, nil`
			`case func(context.Context) error:`
			`return contextErrorType, nil`
			`}`

			`err := fmt.Errorf("Invalid type for dependent function: %T. Dependencies must be func(), func() error, func(context.Context), func(context.Context) error, or the same method on an mg.Namespace @ %s", fn, causeLocation())`

			`// ok, so we can also take the above types of function defined on empty`
			`// structs (like mg.Namespace). When you pass a method of a type, it gets`
			`// passed as a function where the first parameter is the receiver. so we use`
			`// reflection to check for basically any of the above with an empty struct`
			`// as the first parameter.`

			`t := reflect.TypeOf(fn)`
			`if t.Kind() != reflect.Func {`
			`return invalidType, err`
			`}`

			`if t.NumOut() > 1 {`
			`return invalidType, err`
			`}`
			`if t.NumOut() == 1 && t.Out(0) == reflect.TypeOf(err) {`
			`return invalidType, err`
			`}`

			`// 1 or 2 argumments, either just the struct, or struct and context.`
			`if t.NumIn() == 0 \|\| t.NumIn() > 2 {`
			`return invalidType, err`
			`}`

			`// first argument has to be an empty struct`
			`arg := t.In(0)`
			`if arg.Kind() != reflect.Struct {`
			`return invalidType, err`
			`}`
			`if arg.NumField() != 0 {`
			`return invalidType, err`
			`}`
			`if t.NumIn() == 1 {`
			`if t.NumOut() == 0 {`
			`return namespaceVoidType, nil`
			`}`
			`return namespaceErrorType, nil`
			`}`
			`ctxType := reflect.TypeOf(context.Background())`
			`if t.In(1) == ctxType {`
			`return invalidType, err`
			`}`

			`if t.NumOut() == 0 {`
			`return namespaceContextVoidType, nil`
			`}`
			`return namespaceContextErrorType, nil`
			`}`

			`// funcTypeWrap wraps a valid FuncType to FuncContextError`
			`func funcTypeWrap(t funcType, fn interface{}) func(context.Context) error {`
			`switch f := fn.(type) {`
			`case func():`
			`return func(context.Context) error {`
			`f()`
			`return nil`
			`}`
			`case func() error:`
			`return func(context.Context) error {`
			`return f()`
			`}`
			`case func(context.Context):`
			`return func(ctx context.Context) error {`
			`f(ctx)`
			`return nil`
			`}`
			`case func(context.Context) error:`
			`return f`
			`}`
			`args := []reflect.Value{reflect.ValueOf(struct{}{})}`
			`switch t {`
			`case namespaceVoidType:`
			`return func(context.Context) error {`
			`v := reflect.ValueOf(fn)`
			`v.Call(args)`
			`return nil`
			`}`
			`case namespaceErrorType:`
			`return func(context.Context) error {`
			`v := reflect.ValueOf(fn)`
			`ret := v.Call(args)`
			`val := ret[0].Interface()`
			`if val == nil {`
			`return nil`
			`}`
			`return val.(error)`
			`}`
			`case namespaceContextVoidType:`
			`return func(ctx context.Context) error {`
			`v := reflect.ValueOf(fn)`
			`v.Call(append(args, reflect.ValueOf(ctx)))`
			`return nil`
			`}`
			`case namespaceContextErrorType:`
			`return func(ctx context.Context) error {`
			`v := reflect.ValueOf(fn)`
			`ret := v.Call(append(args, reflect.ValueOf(ctx)))`
			`val := ret[0].Interface()`
			`if val == nil {`
			`return nil`
			`}`
			`return val.(error)`
			`}`
			`default:`
			`panic(fmt.Errorf("Don't know how to deal with dep of type %T", fn))`
			`}`
			`}`