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dig.go
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// Copyright (c) 2018 Uber Technologies, Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
package dig
import (
"errors"
"fmt"
"io"
"math/rand"
"reflect"
"sort"
"strconv"
"strings"
"text/template"
"time"
"go.uber.org/dig/internal/digreflect"
"go.uber.org/dig/internal/dot"
)
const (
_optionalTag = "optional"
_nameTag = "name"
_groupTag = "group"
)
// Unique identification of an object in the graph.
type key struct {
t reflect.Type
// Only one of name or group will be set.
name string
group string
}
// Option configures a Container. It's included for future functionality;
// currently, there are no concrete implementations.
type Option interface {
applyOption(*Container)
}
type optionFunc func(*Container)
func (f optionFunc) applyOption(c *Container) { f(c) }
type provideOptions struct {
Name string
}
func (o *provideOptions) Validate() error {
// Names must be representable inside a backquoted string. The only
// limitation for raw string literals as per
// https://golang.org/ref/spec#raw_string_lit is that they cannot contain
// backquotes.
if strings.ContainsRune(o.Name, '`') {
return fmt.Errorf("invalid dig.Name(%q): names cannot contain backquotes", o.Name)
}
return nil
}
// A ProvideOption modifies the default behavior of Provide.
type ProvideOption interface {
applyProvideOption(*provideOptions)
}
type provideOptionFunc func(*provideOptions)
func (f provideOptionFunc) applyProvideOption(opts *provideOptions) { f(opts) }
// Name is a ProvideOption that specifies that all values produced by a
// constructor should have the given name. See also the package documentation
// about Named Values.
//
// Given,
//
// func NewReadOnlyConnection(...) (*Connection, error)
// func NewReadWriteConnection(...) (*Connection, error)
//
// The following will provide two connections to the container: one under the
// name "ro" and the other under the name "rw".
//
// c.Provide(NewReadOnlyConnection, dig.Name("ro"))
// c.Provide(NewReadWriteConnection, dig.Name("rw"))
//
// This option cannot be provided for constructors which produce result
// objects.
func Name(name string) ProvideOption {
return provideOptionFunc(func(opts *provideOptions) {
opts.Name = name
})
}
// An InvokeOption modifies the default behavior of Invoke. It's included for
// future functionality; currently, there are no concrete implementations.
type InvokeOption interface {
unimplemented()
}
// Container is a directed acyclic graph of types and their dependencies.
type Container struct {
// Mapping from key to all the nodes that can provide a value for that
// key.
providers map[key][]*node
// All nodes in the container.
nodes []*node
// Values that have already been generated in the container.
values map[key]reflect.Value
// Values groups that have already been generated in the container.
groups map[key][]reflect.Value
// Source of randomness.
rand *rand.Rand
// Flag indicating whether the graph has been checked for cycles.
isVerifiedAcyclic bool
// Defer acyclic check on provide until Invoke.
deferAcyclicVerification bool
}
// containerWriter provides write access to the Container's underlying data
// store.
type containerWriter interface {
// setValue sets the value with the given name and type in the container.
// If a value with the same name and type already exists, it will be
// overwritten.
setValue(name string, t reflect.Type, v reflect.Value)
// submitGroupedValue submits a value to the value group with the provided
// name.
submitGroupedValue(name string, t reflect.Type, v reflect.Value)
}
// containerStore provides access to the Container's underlying data store.
type containerStore interface {
containerWriter
// Returns a slice containing all known types.
knownTypes() []reflect.Type
// Retrieves the value with the provided name and type, if any.
getValue(name string, t reflect.Type) (v reflect.Value, ok bool)
// Retrieves all values for the provided group and type.
//
// The order in which the values are returned is undefined.
getValueGroup(name string, t reflect.Type) []reflect.Value
// Returns the providers that can produce a value with the given name and
// type.
getValueProviders(name string, t reflect.Type) []provider
// Returns the providers that can produce values for the given group and
// type.
getGroupProviders(name string, t reflect.Type) []provider
createGraph() *dot.Graph
}
// provider encapsulates a user-provided constructor.
type provider interface {
// ID is a unique numerical identifier for this provider.
ID() dot.CtorID
// Location returns where this constructor was defined.
Location() *digreflect.Func
// ParamList returns information about the direct dependencies of this
// constructor.
ParamList() paramList
// ResultList returns information about the values produced by this
// constructor.
ResultList() resultList
// Calls the underlying constructor, reading values from the
// containerStore as needed.
//
// The values produced by this provider should be submitted into the
// containerStore.
Call(containerStore) error
}
// New constructs a Container.
func New(opts ...Option) *Container {
c := &Container{
providers: make(map[key][]*node),
values: make(map[key]reflect.Value),
groups: make(map[key][]reflect.Value),
rand: rand.New(rand.NewSource(time.Now().UnixNano())),
}
for _, opt := range opts {
opt.applyOption(c)
}
return c
}
// DeferAcyclicVerification is an Option to override the default behavior
// of container.Provide, deferring the dependency graph validation to no longer
// run after each call to container.Provide. The container will instead verify
// the graph on first `Invoke`.
//
// Applications adding providers to a container in a tight loop may experience
// performance improvements by initializing the container with this option.
func DeferAcyclicVerification() Option {
return optionFunc(func(c *Container) {
c.deferAcyclicVerification = true
})
}
// A VisualizeOption modifies the default behavior of Visualize.
type VisualizeOption interface {
applyVisualizeOption(*visualizeOptions)
}
type visualizeOptions struct {
VisualizeError error
}
type visualizeOptionFunc func(*visualizeOptions)
func (f visualizeOptionFunc) applyVisualizeOption(opts *visualizeOptions) { f(opts) }
// VisualizeError includes a visualization of the given error in the output of
// Visualize if an error was returned by Invoke or Provide.
//
// if err := c.Provide(...); err != nil {
// dig.Visualize(c, w, dig.VisualizeError(err))
// }
//
// This option has no effect if the error was nil or if it didn't contain any
// information to visualize.
func VisualizeError(err error) VisualizeOption {
return visualizeOptionFunc(func(opts *visualizeOptions) {
opts.VisualizeError = err
})
}
func updateGraph(dg *dot.Graph, err error) error {
var errors []errVisualizer
// Unwrap error to find the root cause.
for {
if ev, ok := err.(errVisualizer); ok {
errors = append(errors, ev)
}
e, ok := err.(causer)
if !ok {
break
}
err = e.cause()
}
// If there are no errVisualizers included, we do not modify the graph.
if len(errors) == 0 {
return nil
}
// We iterate in reverse because the last element is the root cause.
for i := len(errors) - 1; i >= 0; i-- {
errors[i].updateGraph(dg)
}
return nil
}
var _graphTmpl = template.Must(
template.New("DotGraph").
Funcs(template.FuncMap{
"quote": strconv.Quote,
}).
Parse(`digraph {
graph [compound=true];
{{range $g := .Groups}}
{{- quote .String}} [{{.Attributes}}];
{{range .Results}}
{{- quote $g.String}} -> {{quote .String}};
{{end}}
{{end -}}
{{range $index, $ctor := .Ctors}}
subgraph cluster_{{$index}} {
constructor_{{$index}} [shape=plaintext label={{quote .Name}}];
{{with .ErrorType}}color={{.Color}};{{end}}
{{range .Results}}
{{- quote .String}} [{{.Attributes}}];
{{end}}
}
{{range .Params}}
constructor_{{$index}} -> {{quote .String}} [ltail=cluster_{{$index}}{{if .Optional}} style=dashed{{end}}];
{{end}}
{{range .GroupParams}}
constructor_{{$index}} -> {{quote .String}} [ltail=cluster_{{$index}}];
{{end -}}
{{end}}
{{range .Failed.TransitiveFailures}}
{{- quote .String}} [color=orange];
{{end -}}
{{range .Failed.RootCauses}}
{{- quote .String}} [color=red];
{{end}}
}`))
// Visualize parses the graph in Container c into DOT format and writes it to
// io.Writer w.
func Visualize(c *Container, w io.Writer, opts ...VisualizeOption) error {
dg := c.createGraph()
var options visualizeOptions
for _, o := range opts {
o.applyVisualizeOption(&options)
}
if options.VisualizeError != nil {
if err := updateGraph(dg, options.VisualizeError); err != nil {
return err
}
}
return _graphTmpl.Execute(w, dg)
}
// CanVisualizeError returns true if the error is an errVisualizer.
func CanVisualizeError(err error) bool {
for {
if _, ok := err.(errVisualizer); ok {
return true
}
e, ok := err.(causer)
if !ok {
break
}
err = e.cause()
}
return false
}
func (c *Container) createGraph() *dot.Graph {
dg := dot.NewGraph()
for _, n := range c.nodes {
dg.AddCtor(newDotCtor(n), n.paramList.DotParam(), n.resultList.DotResult())
}
return dg
}
// Changes the source of randomness for the container.
//
// This will help provide determinism during tests.
func setRand(r *rand.Rand) Option {
return optionFunc(func(c *Container) {
c.rand = r
})
}
func (c *Container) knownTypes() []reflect.Type {
typeSet := make(map[reflect.Type]struct{}, len(c.providers))
for k := range c.providers {
typeSet[k.t] = struct{}{}
}
types := make([]reflect.Type, 0, len(typeSet))
for t := range typeSet {
types = append(types, t)
}
sort.Sort(byTypeName(types))
return types
}
func (c *Container) getValue(name string, t reflect.Type) (v reflect.Value, ok bool) {
v, ok = c.values[key{name: name, t: t}]
return
}
func (c *Container) setValue(name string, t reflect.Type, v reflect.Value) {
c.values[key{name: name, t: t}] = v
}
func (c *Container) getValueGroup(name string, t reflect.Type) []reflect.Value {
items := c.groups[key{group: name, t: t}]
// shuffle the list so users don't rely on the ordering of grouped values
return shuffledCopy(c.rand, items)
}
func (c *Container) submitGroupedValue(name string, t reflect.Type, v reflect.Value) {
k := key{group: name, t: t}
c.groups[k] = append(c.groups[k], v)
}
func (c *Container) getValueProviders(name string, t reflect.Type) []provider {
return c.getProviders(key{name: name, t: t})
}
func (c *Container) getGroupProviders(name string, t reflect.Type) []provider {
return c.getProviders(key{group: name, t: t})
}
func (c *Container) getProviders(k key) []provider {
nodes := c.providers[k]
providers := make([]provider, len(nodes))
for i, n := range nodes {
providers[i] = n
}
return providers
}
// Provide teaches the container how to build values of one or more types and
// expresses their dependencies.
//
// The first argument of Provide is a function that accepts zero or more
// parameters and returns one or more results. The function may optionally
// return an error to indicate that it failed to build the value. This
// function will be treated as the constructor for all the types it returns.
// This function will be called AT MOST ONCE when a type produced by it, or a
// type that consumes this function's output, is requested via Invoke. If the
// same types are requested multiple times, the previously produced value will
// be reused.
//
// In addition to accepting constructors that accept dependencies as separate
// arguments and produce results as separate return values, Provide also
// accepts constructors that specify dependencies as dig.In structs and/or
// specify results as dig.Out structs.
func (c *Container) Provide(constructor interface{}, opts ...ProvideOption) error {
ctype := reflect.TypeOf(constructor)
if ctype == nil {
return errors.New("can't provide an untyped nil")
}
if ctype.Kind() != reflect.Func {
return fmt.Errorf("must provide constructor function, got %v (type %v)", constructor, ctype)
}
var options provideOptions
for _, o := range opts {
o.applyProvideOption(&options)
}
if err := options.Validate(); err != nil {
return err
}
if err := c.provide(constructor, options); err != nil {
return errProvide{
Func: digreflect.InspectFunc(constructor),
Reason: err,
}
}
return nil
}
// Invoke runs the given function after instantiating its dependencies.
//
// Any arguments that the function has are treated as its dependencies. The
// dependencies are instantiated in an unspecified order along with any
// dependencies that they might have.
//
// The function may return an error to indicate failure. The error will be
// returned to the caller as-is.
func (c *Container) Invoke(function interface{}, opts ...InvokeOption) error {
ftype := reflect.TypeOf(function)
if ftype == nil {
return errors.New("can't invoke an untyped nil")
}
if ftype.Kind() != reflect.Func {
return fmt.Errorf("can't invoke non-function %v (type %v)", function, ftype)
}
pl, err := newParamList(ftype)
if err != nil {
return err
}
if err := shallowCheckDependencies(c, pl); err != nil {
return errMissingDependencies{
Func: digreflect.InspectFunc(function),
Reason: err,
}
}
if !c.isVerifiedAcyclic {
if err := c.verifyAcyclic(); err != nil {
return err
}
}
args, err := pl.BuildList(c)
if err != nil {
return errArgumentsFailed{
Func: digreflect.InspectFunc(function),
Reason: err,
}
}
returned := reflect.ValueOf(function).Call(args)
if len(returned) == 0 {
return nil
}
if last := returned[len(returned)-1]; isError(last.Type()) {
if err, _ := last.Interface().(error); err != nil {
return err
}
}
return nil
}
func (c *Container) verifyAcyclic() error {
visited := make(map[key]struct{})
for _, n := range c.nodes {
if err := detectCycles(n, c, nil /* path */, visited); err != nil {
return errWrapf(err, "cycle detected in dependency graph")
}
}
c.isVerifiedAcyclic = true
return nil
}
func (c *Container) provide(ctor interface{}, opts provideOptions) error {
n, err := newNode(ctor, nodeOptions{ResultName: opts.Name})
if err != nil {
return err
}
keys, err := c.findAndValidateResults(n)
if err != nil {
return err
}
ctype := reflect.TypeOf(ctor)
if len(keys) == 0 {
return fmt.Errorf("%v must provide at least one non-error type", ctype)
}
for k := range keys {
c.isVerifiedAcyclic = false
oldProviders := c.providers[k]
c.providers[k] = append(c.providers[k], n)
if c.deferAcyclicVerification {
continue
}
if err := verifyAcyclic(c, n, k); err != nil {
c.providers[k] = oldProviders
return err
}
c.isVerifiedAcyclic = true
}
c.nodes = append(c.nodes, n)
return nil
}
// Builds a collection of all result types produced by this node.
func (c *Container) findAndValidateResults(n *node) (map[key]struct{}, error) {
var err error
keyPaths := make(map[key]string)
walkResult(n.ResultList(), connectionVisitor{
c: c,
n: n,
err: &err,
keyPaths: keyPaths,
})
if err != nil {
return nil, err
}
keys := make(map[key]struct{}, len(keyPaths))
for k := range keyPaths {
keys[k] = struct{}{}
}
return keys, nil
}
// Visits the results of a node and compiles a collection of all the keys
// produced by that node.
type connectionVisitor struct {
c *Container
n *node
// If this points to a non-nil value, we've already encountered an error
// and should stop traversing.
err *error
// Map of keys provided to path that provided this. The path is a string
// documenting which positional return value or dig.Out attribute is
// providing this particular key.
//
// For example, "[0].Foo" indicates that the value was provided by the Foo
// attribute of the dig.Out returned as the first result of the
// constructor.
keyPaths map[key]string
// We track the path to the current result here. For example, this will
// be, ["[1]", "Foo", "Bar"] when we're visiting Bar in,
//
// func() (io.Writer, struct {
// dig.Out
//
// Foo struct {
// dig.Out
//
// Bar io.Reader
// }
// })
currentResultPath []string
}
func (cv connectionVisitor) AnnotateWithField(f resultObjectField) resultVisitor {
cv.currentResultPath = append(cv.currentResultPath, f.FieldName)
return cv
}
func (cv connectionVisitor) AnnotateWithPosition(i int) resultVisitor {
cv.currentResultPath = append(cv.currentResultPath, fmt.Sprintf("[%d]", i))
return cv
}
func (cv connectionVisitor) Visit(res result) resultVisitor {
// Already failed. Stop looking.
if *cv.err != nil {
return nil
}
path := strings.Join(cv.currentResultPath, ".")
switch r := res.(type) {
case resultSingle:
k := key{name: r.Name, t: r.Type}
if conflict, ok := cv.keyPaths[k]; ok {
*cv.err = fmt.Errorf(
"cannot provide %v from %v: already provided by %v",
k, path, conflict)
return nil
}
if ps := cv.c.providers[k]; len(ps) > 0 {
cons := make([]string, len(ps))
for i, p := range ps {
cons[i] = fmt.Sprint(p.Location())
}
*cv.err = fmt.Errorf(
"cannot provide %v from %v: already provided by %v",
k, path, strings.Join(cons, "; "))
return nil
}
cv.keyPaths[k] = path
case resultGrouped:
// we don't really care about the path for this since conflicts are
// okay for group results. We'll track it for the sake of having a
// value there.
k := key{group: r.Group, t: r.Type}
cv.keyPaths[k] = path
}
return cv
}
// node is a node in the dependency graph. Each node maps to a single
// constructor provided by the user.
//
// Nodes can produce zero or more values that they store into the container.
// For the Provide path, we verify that nodes produce at least one value,
// otherwise the function will never be called.
type node struct {
ctor interface{}
ctype reflect.Type
// Location where this function was defined.
location *digreflect.Func
// id uniquely identifies the constructor that produces a node.
id dot.CtorID
// Whether the constructor owned by this node was already called.
called bool
// Type information about constructor parameters.
paramList paramList
// Type information about constructor results.
resultList resultList
}
type nodeOptions struct {
// If specified, all values produced by this node have the provided name.
ResultName string
}
func newNode(ctor interface{}, opts nodeOptions) (*node, error) {
cval := reflect.ValueOf(ctor)
ctype := cval.Type()
cptr := cval.Pointer()
params, err := newParamList(ctype)
if err != nil {
return nil, err
}
results, err := newResultList(ctype, resultOptions{Name: opts.ResultName})
if err != nil {
return nil, err
}
return &node{
ctor: ctor,
ctype: ctype,
location: digreflect.InspectFunc(ctor),
id: dot.CtorID(cptr),
paramList: params,
resultList: results,
}, err
}
func (n *node) Location() *digreflect.Func { return n.location }
func (n *node) ParamList() paramList { return n.paramList }
func (n *node) ResultList() resultList { return n.resultList }
func (n *node) ID() dot.CtorID { return n.id }
// Call calls this node's constructor if it hasn't already been called and
// injects any values produced by it into the provided container.
func (n *node) Call(c containerStore) error {
if n.called {
return nil
}
if err := shallowCheckDependencies(c, n.paramList); err != nil {
return errMissingDependencies{
Func: n.location,
Reason: err,
}
}
args, err := n.paramList.BuildList(c)
if err != nil {
return errArgumentsFailed{
Func: n.location,
Reason: err,
}
}
receiver := newStagingContainerWriter()
results := reflect.ValueOf(n.ctor).Call(args)
if err := n.resultList.ExtractList(receiver, results); err != nil {
return errConstructorFailed{Func: n.location, Reason: err}
}
receiver.Commit(c)
n.called = true
return nil
}
// Checks if a field of an In struct is optional.
func isFieldOptional(f reflect.StructField) (bool, error) {
tag := f.Tag.Get(_optionalTag)
if tag == "" {
return false, nil
}
optional, err := strconv.ParseBool(tag)
if err != nil {
err = errWrapf(err,
"invalid value %q for %q tag on field %v",
tag, _optionalTag, f.Name)
}
return optional, err
}
// Checks that all direct dependencies of the provided param are present in
// the container. Returns an error if not.
func shallowCheckDependencies(c containerStore, p param) error {
var missing errMissingManyTypes
var addMissingNodes []*dot.Param
walkParam(p, paramVisitorFunc(func(p param) bool {
ps, ok := p.(paramSingle)
if !ok {
return true
}
if ns := c.getValueProviders(ps.Name, ps.Type); len(ns) == 0 && !ps.Optional {
missing = append(missing, newErrMissingType(c, key{name: ps.Name, t: ps.Type}))
addMissingNodes = append(addMissingNodes, ps.DotParam()...)
}
return true
}))
if len(missing) > 0 {
return missing
}
return nil
}
// stagingContainerWriter is a containerWriter that records the changes that
// would be made to a containerWriter and defers them until Commit is called.
type stagingContainerWriter struct {
values map[key]reflect.Value
groups map[key][]reflect.Value
}
var _ containerWriter = (*stagingContainerWriter)(nil)
func newStagingContainerWriter() *stagingContainerWriter {
return &stagingContainerWriter{
values: make(map[key]reflect.Value),
groups: make(map[key][]reflect.Value),
}
}
func (sr *stagingContainerWriter) setValue(name string, t reflect.Type, v reflect.Value) {
sr.values[key{t: t, name: name}] = v
}
func (sr *stagingContainerWriter) submitGroupedValue(group string, t reflect.Type, v reflect.Value) {
k := key{t: t, group: group}
sr.groups[k] = append(sr.groups[k], v)
}
// Commit commits the received results to the provided containerWriter.
func (sr *stagingContainerWriter) Commit(cw containerWriter) {
for k, v := range sr.values {
cw.setValue(k.name, k.t, v)
}
for k, vs := range sr.groups {
for _, v := range vs {
cw.submitGroupedValue(k.group, k.t, v)
}
}
}
type byTypeName []reflect.Type
func (bs byTypeName) Len() int {
return len(bs)
}
func (bs byTypeName) Less(i int, j int) bool {
return fmt.Sprint(bs[i]) < fmt.Sprint(bs[j])
}
func (bs byTypeName) Swap(i int, j int) {
bs[i], bs[j] = bs[j], bs[i]
}
func shuffledCopy(rand *rand.Rand, items []reflect.Value) []reflect.Value {
newItems := make([]reflect.Value, len(items))
for i, j := range rand.Perm(len(items)) {
newItems[i] = items[j]
}
return newItems
}
func newDotCtor(n *node) *dot.Ctor {
return &dot.Ctor{
ID: n.id,
Name: n.location.Name,
Package: n.location.Package,
File: n.location.File,
Line: n.location.Line,
}
}