go/analysis/analysis.go - tools - Git at Google

 package analysis

 import (
 	"flag"
 	"fmt"
 	"go/ast"
 	"go/token"
 	"go/types"
 	"reflect"

 	"golang.org/x/tools/internal/analysisinternal"
 )

 // An Analyzer describes an analysis function and its options.
 type Analyzer struct {
 	// The Name of the analyzer must be a valid Go identifier
 	// as it may appear in command-line flags, URLs, and so on.
 	Name string

 	// Doc is the documentation for the analyzer.
 	// The part before the first "\n\n" is the title
 	// (no capital or period, max ~60 letters).
 	Doc string

 	// Flags defines any flags accepted by the analyzer.
 	// The manner in which these flags are exposed to the user
 	// depends on the driver which runs the analyzer.
 	Flags flag.FlagSet

 	// Run applies the analyzer to a package.
 	// It returns an error if the analyzer failed.
 	//
 	// On success, the Run function may return a result
 	// computed by the Analyzer; its type must match ResultType.
 	// The driver makes this result available as an input to
 	// another Analyzer that depends directly on this one (see
 	// Requires) when it analyzes the same package.
 	//
 	// To pass analysis results between packages (and thus
 	// potentially between address spaces), use Facts, which are
 	// serializable.
 	Run func(*Pass) (interface{}, error)

 	// RunDespiteErrors allows the driver to invoke
 	// the Run method of this analyzer even on a
 	// package that contains parse or type errors.
 	RunDespiteErrors bool

 	// Requires is a set of analyzers that must run successfully
 	// before this one on a given package. This analyzer may inspect
 	// the outputs produced by each analyzer in Requires.
 	// The graph over analyzers implied by Requires edges must be acyclic.
 	//
 	// Requires establishes a "horizontal" dependency between
 	// analysis passes (different analyzers, same package).
 	Requires []*Analyzer

 	// ResultType is the type of the optional result of the Run function.
 	ResultType reflect.Type

 	// FactTypes indicates that this analyzer imports and exports
 	// Facts of the specified concrete types.
 	// An analyzer that uses facts may assume that its import
 	// dependencies have been similarly analyzed before it runs.
 	// Facts must be pointers.
 	//
 	// FactTypes establishes a "vertical" dependency between
 	// analysis passes (same analyzer, different packages).
 	FactTypes []Fact
 }

 func (a *Analyzer) String() string { return a.Name }

 func init() {
 	// Set the analysisinternal functions to be able to pass type errors
 	// to the Pass type without modifying the go/analysis API.
 	analysisinternal.SetTypeErrors = func(p interface{}, errors []types.Error) {
 		p.(*Pass).typeErrors = errors
 	}
 	analysisinternal.GetTypeErrors = func(p interface{}) []types.Error {
 		return p.(*Pass).typeErrors
 	}
 }

 // A Pass provides information to the Run function that
 // applies a specific analyzer to a single Go package.
 //
 // It forms the interface between the analysis logic and the driver
 // program, and has both input and an output components.
 //
 // As in a compiler, one pass may depend on the result computed by another.
 //
 // The Run function should not call any of the Pass functions concurrently.
 type Pass struct {
 	Analyzer *Analyzer // the identity of the current analyzer

 	// syntax and type information
 	Fset       *token.FileSet // file position information
 	Files      []*ast.File    // the abstract syntax tree of each file
 	OtherFiles []string       // names of non-Go files of this package
 	Pkg        *types.Package // type information about the package
 	TypesInfo  *types.Info    // type information about the syntax trees
 	TypesSizes types.Sizes    // function for computing sizes of types

 	// Report reports a Diagnostic, a finding about a specific location
 	// in the analyzed source code such as a potential mistake.
 	// It may be called by the Run function.
 	Report func(Diagnostic)

 	// ResultOf provides the inputs to this analysis pass, which are
 	// the corresponding results of its prerequisite analyzers.
 	// The map keys are the elements of Analysis.Required,
 	// and the type of each corresponding value is the required
 	// analysis's ResultType.
 	ResultOf map[*Analyzer]interface{}

 	// -- facts --

 	// ImportObjectFact retrieves a fact associated with obj.
 	// Given a value ptr of type *T, where *T satisfies Fact,
 	// ImportObjectFact copies the value to *ptr.
 	//
 	// ImportObjectFact panics if called after the pass is complete.
 	// ImportObjectFact is not concurrency-safe.
 	ImportObjectFact func(obj types.Object, fact Fact) bool

 	// ImportPackageFact retrieves a fact associated with package pkg,
 	// which must be this package or one of its dependencies.
 	// See comments for ImportObjectFact.
 	ImportPackageFact func(pkg *types.Package, fact Fact) bool

 	// ExportObjectFact associates a fact of type *T with the obj,
 	// replacing any previous fact of that type.
 	//
 	// ExportObjectFact panics if it is called after the pass is
 	// complete, or if obj does not belong to the package being analyzed.
 	// ExportObjectFact is not concurrency-safe.
 	ExportObjectFact func(obj types.Object, fact Fact)

 	// ExportPackageFact associates a fact with the current package.
 	// See comments for ExportObjectFact.
 	ExportPackageFact func(fact Fact)

 	// AllPackageFacts returns a new slice containing all package facts of the analysis's FactTypes
 	// in unspecified order.
 	// WARNING: This is an experimental API and may change in the future.
 	AllPackageFacts func() []PackageFact

 	// AllObjectFacts returns a new slice containing all object facts of the analysis's FactTypes
 	// in unspecified order.
 	// WARNING: This is an experimental API and may change in the future.
 	AllObjectFacts func() []ObjectFact

 	// typeErrors contains types.Errors that are associated with the pkg.
 	typeErrors []types.Error

 	/* Further fields may be added in future. */
 	// For example, suggested or applied refactorings.
 }

 // PackageFact is a package together with an associated fact.
 // WARNING: This is an experimental API and may change in the future.
 type PackageFact struct {
 	Package *types.Package
 	Fact    Fact
 }

 // ObjectFact is an object together with an associated fact.
 // WARNING: This is an experimental API and may change in the future.
 type ObjectFact struct {
 	Object types.Object
 	Fact   Fact
 }

 // Reportf is a helper function that reports a Diagnostic using the
 // specified position and formatted error message.
 func (pass *Pass) Reportf(pos token.Pos, format string, args ...interface{}) {
 	msg := fmt.Sprintf(format, args...)
 	pass.Report(Diagnostic{Pos: pos, Message: msg})
 }

 // The Range interface provides a range. It's equivalent to and satisfied by
 // ast.Node.
 type Range interface {
 	Pos() token.Pos // position of first character belonging to the node
 	End() token.Pos // position of first character immediately after the node
 }

 // ReportRangef is a helper function that reports a Diagnostic using the
 // range provided. ast.Node values can be passed in as the range because
 // they satisfy the Range interface.
 func (pass *Pass) ReportRangef(rng Range, format string, args ...interface{}) {
 	msg := fmt.Sprintf(format, args...)
 	pass.Report(Diagnostic{Pos: rng.Pos(), End: rng.End(), Message: msg})
 }

 func (pass *Pass) String() string {
 	return fmt.Sprintf("%s@%s", pass.Analyzer.Name, pass.Pkg.Path())
 }

 // A Fact is an intermediate fact produced during analysis.
 //
 // Each fact is associated with a named declaration (a types.Object) or
 // with a package as a whole. A single object or package may have
 // multiple associated facts, but only one of any particular fact type.
 //
 // A Fact represents a predicate such as "never returns", but does not
 // represent the subject of the predicate such as "function F" or "package P".
 //
 // Facts may be produced in one analysis pass and consumed by another
 // analysis pass even if these are in different address spaces.
 // If package P imports Q, all facts about Q produced during
 // analysis of that package will be available during later analysis of P.
 // Facts are analogous to type export data in a build system:
 // just as export data enables separate compilation of several passes,
 // facts enable "separate analysis".
 //
 // Each pass (a, p) starts with the set of facts produced by the
 // same analyzer a applied to the packages directly imported by p.
 // The analysis may add facts to the set, and they may be exported in turn.
 // An analysis's Run function may retrieve facts by calling
 // Pass.Import{Object,Package}Fact and update them using
 // Pass.Export{Object,Package}Fact.
 //
 // A fact is logically private to its Analysis. To pass values
 // between different analyzers, use the results mechanism;
 // see Analyzer.Requires, Analyzer.ResultType, and Pass.ResultOf.
 //
 // A Fact type must be a pointer.
 // Facts are encoded and decoded using encoding/gob.
 // A Fact may implement the GobEncoder/GobDecoder interfaces
 // to customize its encoding. Fact encoding should not fail.
 //
 // A Fact should not be modified once exported.
 type Fact interface {
 	AFact() // dummy method to avoid type errors
 }
	package analysis

	import (
	"flag"
	"fmt"
	"go/ast"
	"go/token"
	"go/types"
	"reflect"

	"golang.org/x/tools/internal/analysisinternal"
	)

	// An Analyzer describes an analysis function and its options.
	type Analyzer struct {
	// The Name of the analyzer must be a valid Go identifier
	// as it may appear in command-line flags, URLs, and so on.
	Name string

	// Doc is the documentation for the analyzer.
	// The part before the first "\n\n" is the title
	// (no capital or period, max ~60 letters).
	Doc string

	// Flags defines any flags accepted by the analyzer.
	// The manner in which these flags are exposed to the user
	// depends on the driver which runs the analyzer.
	Flags flag.FlagSet

	// Run applies the analyzer to a package.
	// It returns an error if the analyzer failed.
	//
	// On success, the Run function may return a result
	// computed by the Analyzer; its type must match ResultType.
	// The driver makes this result available as an input to
	// another Analyzer that depends directly on this one (see
	// Requires) when it analyzes the same package.
	//
	// To pass analysis results between packages (and thus
	// potentially between address spaces), use Facts, which are
	// serializable.
	Run func(*Pass) (interface{}, error)

	// RunDespiteErrors allows the driver to invoke
	// the Run method of this analyzer even on a
	// package that contains parse or type errors.
	RunDespiteErrors bool

	// Requires is a set of analyzers that must run successfully
	// before this one on a given package. This analyzer may inspect
	// the outputs produced by each analyzer in Requires.
	// The graph over analyzers implied by Requires edges must be acyclic.
	//
	// Requires establishes a "horizontal" dependency between
	// analysis passes (different analyzers, same package).
	Requires []*Analyzer

	// ResultType is the type of the optional result of the Run function.
	ResultType reflect.Type

	// FactTypes indicates that this analyzer imports and exports
	// Facts of the specified concrete types.
	// An analyzer that uses facts may assume that its import
	// dependencies have been similarly analyzed before it runs.
	// Facts must be pointers.
	//
	// FactTypes establishes a "vertical" dependency between
	// analysis passes (same analyzer, different packages).
	FactTypes []Fact
	}

	func (a *Analyzer) String() string { return a.Name }

	func init() {
	// Set the analysisinternal functions to be able to pass type errors
	// to the Pass type without modifying the go/analysis API.
	analysisinternal.SetTypeErrors = func(p interface{}, errors []types.Error) {
	p.(*Pass).typeErrors = errors
	}
	analysisinternal.GetTypeErrors = func(p interface{}) []types.Error {
	return p.(*Pass).typeErrors
	}
	}

	// A Pass provides information to the Run function that
	// applies a specific analyzer to a single Go package.
	//
	// It forms the interface between the analysis logic and the driver
	// program, and has both input and an output components.
	//
	// As in a compiler, one pass may depend on the result computed by another.
	//
	// The Run function should not call any of the Pass functions concurrently.
	type Pass struct {
	Analyzer *Analyzer // the identity of the current analyzer

	// syntax and type information
	Fset *token.FileSet // file position information
	Files []*ast.File // the abstract syntax tree of each file
	OtherFiles []string // names of non-Go files of this package
	Pkg *types.Package // type information about the package
	TypesInfo *types.Info // type information about the syntax trees
	TypesSizes types.Sizes // function for computing sizes of types

	// Report reports a Diagnostic, a finding about a specific location
	// in the analyzed source code such as a potential mistake.
	// It may be called by the Run function.
	Report func(Diagnostic)

	// ResultOf provides the inputs to this analysis pass, which are
	// the corresponding results of its prerequisite analyzers.
	// The map keys are the elements of Analysis.Required,
	// and the type of each corresponding value is the required
	// analysis's ResultType.
	ResultOf map[*Analyzer]interface{}

	// -- facts --

	// ImportObjectFact retrieves a fact associated with obj.
	// Given a value ptr of type T, where T satisfies Fact,
	// ImportObjectFact copies the value to *ptr.
	//
	// ImportObjectFact panics if called after the pass is complete.
	// ImportObjectFact is not concurrency-safe.
	ImportObjectFact func(obj types.Object, fact Fact) bool

	// ImportPackageFact retrieves a fact associated with package pkg,
	// which must be this package or one of its dependencies.
	// See comments for ImportObjectFact.
	ImportPackageFact func(pkg *types.Package, fact Fact) bool

	// ExportObjectFact associates a fact of type *T with the obj,
	// replacing any previous fact of that type.
	//
	// ExportObjectFact panics if it is called after the pass is
	// complete, or if obj does not belong to the package being analyzed.
	// ExportObjectFact is not concurrency-safe.
	ExportObjectFact func(obj types.Object, fact Fact)

	// ExportPackageFact associates a fact with the current package.
	// See comments for ExportObjectFact.
	ExportPackageFact func(fact Fact)

	// AllPackageFacts returns a new slice containing all package facts of the analysis's FactTypes
	// in unspecified order.
	// WARNING: This is an experimental API and may change in the future.
	AllPackageFacts func() []PackageFact

	// AllObjectFacts returns a new slice containing all object facts of the analysis's FactTypes
	// in unspecified order.
	// WARNING: This is an experimental API and may change in the future.
	AllObjectFacts func() []ObjectFact

	// typeErrors contains types.Errors that are associated with the pkg.
	typeErrors []types.Error

	/* Further fields may be added in future. */
	// For example, suggested or applied refactorings.
	}

	// PackageFact is a package together with an associated fact.
	// WARNING: This is an experimental API and may change in the future.
	type PackageFact struct {
	Package *types.Package
	Fact Fact
	}

	// ObjectFact is an object together with an associated fact.
	// WARNING: This is an experimental API and may change in the future.
	type ObjectFact struct {
	Object types.Object
	Fact Fact
	}

	// Reportf is a helper function that reports a Diagnostic using the
	// specified position and formatted error message.
	func (pass *Pass) Reportf(pos token.Pos, format string, args ...interface{}) {
	msg := fmt.Sprintf(format, args...)
	pass.Report(Diagnostic{Pos: pos, Message: msg})
	}

	// The Range interface provides a range. It's equivalent to and satisfied by
	// ast.Node.
	type Range interface {
	Pos() token.Pos // position of first character belonging to the node
	End() token.Pos // position of first character immediately after the node
	}

	// ReportRangef is a helper function that reports a Diagnostic using the
	// range provided. ast.Node values can be passed in as the range because
	// they satisfy the Range interface.
	func (pass *Pass) ReportRangef(rng Range, format string, args ...interface{}) {
	msg := fmt.Sprintf(format, args...)
	pass.Report(Diagnostic{Pos: rng.Pos(), End: rng.End(), Message: msg})
	}

	func (pass *Pass) String() string {
	return fmt.Sprintf("%s@%s", pass.Analyzer.Name, pass.Pkg.Path())
	}

	// A Fact is an intermediate fact produced during analysis.
	//
	// Each fact is associated with a named declaration (a types.Object) or
	// with a package as a whole. A single object or package may have
	// multiple associated facts, but only one of any particular fact type.
	//
	// A Fact represents a predicate such as "never returns", but does not
	// represent the subject of the predicate such as "function F" or "package P".
	//
	// Facts may be produced in one analysis pass and consumed by another
	// analysis pass even if these are in different address spaces.
	// If package P imports Q, all facts about Q produced during
	// analysis of that package will be available during later analysis of P.
	// Facts are analogous to type export data in a build system:
	// just as export data enables separate compilation of several passes,
	// facts enable "separate analysis".
	//
	// Each pass (a, p) starts with the set of facts produced by the
	// same analyzer a applied to the packages directly imported by p.
	// The analysis may add facts to the set, and they may be exported in turn.
	// An analysis's Run function may retrieve facts by calling
	// Pass.Import{Object,Package}Fact and update them using
	// Pass.Export{Object,Package}Fact.
	//
	// A fact is logically private to its Analysis. To pass values
	// between different analyzers, use the results mechanism;
	// see Analyzer.Requires, Analyzer.ResultType, and Pass.ResultOf.
	//
	// A Fact type must be a pointer.
	// Facts are encoded and decoded using encoding/gob.
	// A Fact may implement the GobEncoder/GobDecoder interfaces
	// to customize its encoding. Fact encoding should not fail.
	//
	// A Fact should not be modified once exported.
	type Fact interface {
	AFact() // dummy method to avoid type errors
	}