示例#1
0
// FindQueryMethods locates all methods in the given package (assumed to be
// package database/sql) with a string parameter named "query".
func FindQueryMethods(sql *types.Package, ssa *ssa.Program) []*QueryMethod {
	methods := make([]*QueryMethod, 0)
	scope := sql.Scope()
	for _, name := range scope.Names() {
		o := scope.Lookup(name)
		if !o.Exported() {
			continue
		}
		if _, ok := o.(*types.TypeName); !ok {
			continue
		}
		n := o.Type().(*types.Named)
		for i := 0; i < n.NumMethods(); i++ {
			m := n.Method(i)
			if !m.Exported() {
				continue
			}
			s := m.Type().(*types.Signature)
			if num, ok := FuncHasQuery(s); ok {
				methods = append(methods, &QueryMethod{
					Func:     m,
					SSA:      ssa.FuncValue(m),
					ArgCount: s.Params().Len(),
					Param:    num,
				})
			}
		}
	}
	return methods
}
示例#2
0
文件: main.go 项目: f5tracker/example
//!+
func PrintSkeleton(pkg *types.Package, ifacename, concname string) error {
	obj := pkg.Scope().Lookup(ifacename)
	if obj == nil {
		return fmt.Errorf("%s.%s not found", pkg.Path(), ifacename)
	}
	if _, ok := obj.(*types.TypeName); !ok {
		return fmt.Errorf("%v is not a named type", obj)
	}
	iface, ok := obj.Type().Underlying().(*types.Interface)
	if !ok {
		return fmt.Errorf("type %v is a %T, not an interface",
			obj, obj.Type().Underlying())
	}
	// Use first letter of type name as receiver parameter.
	if !isValidIdentifier(concname) {
		return fmt.Errorf("invalid concrete type name: %q", concname)
	}
	r, _ := utf8.DecodeRuneInString(concname)

	fmt.Printf("// *%s implements %s.%s.\n", concname, pkg.Path(), ifacename)
	fmt.Printf("type %s struct{}\n", concname)
	mset := types.NewMethodSet(iface)
	for i := 0; i < mset.Len(); i++ {
		meth := mset.At(i).Obj()
		sig := types.TypeString(meth.Type(), (*types.Package).Name)
		fmt.Printf("func (%c *%s) %s%s {\n\tpanic(\"unimplemented\")\n}\n",
			r, concname, meth.Name(),
			strings.TrimPrefix(sig, "func"))
	}
	return nil
}
示例#3
0
func FindAllExports(pkg *types.Package, fset *token.FileSet) []UnexportCandidate {
	candidates := []UnexportCandidate{}
	for _, name := range pkg.Scope().Names() {
		obj := pkg.Scope().Lookup(name)
		if !obj.Exported() {
			continue
		}
		displayName := obj.Name()
		if _, ok := obj.(*types.Func); ok {
			displayName += "()"
		}
		candidate := UnexportCandidate{obj.Name(), displayName, fset.Position(obj.Pos())}
		candidates = append(candidates, candidate)
		if tn, ok := obj.(*types.TypeName); ok {
			if str, ok := tn.Type().Underlying().(*types.Struct); ok {
				candidates = append(candidates, findStructFields(str, obj.Name(), fset)...)
			}
			ptrType := types.NewPointer(tn.Type())
			methodSet := types.NewMethodSet(ptrType)
			for i := 0; i < methodSet.Len(); i++ {
				methodSel := methodSet.At(i)
				method := methodSel.Obj()
				// skip unexported functions, and functions from embedded fields.
				// The best I can figure out for embedded functions is if the selection index path is longer than 1.
				if !method.Exported() || len(methodSel.Index()) > 1 {
					continue
				}
				candidate := UnexportCandidate{method.Name(), obj.Name() + "." + method.Name() + "()", fset.Position(method.Pos())}
				candidates = append(candidates, candidate)
			}
		}
	}
	return candidates
}
示例#4
0
func describePackage(qpos *queryPos, path []ast.Node) (*describePackageResult, error) {
	var description string
	var pkg *types.Package
	switch n := path[0].(type) {
	case *ast.ImportSpec:
		var obj types.Object
		if n.Name != nil {
			obj = qpos.info.Defs[n.Name]
		} else {
			obj = qpos.info.Implicits[n]
		}
		pkgname, _ := obj.(*types.PkgName)
		if pkgname == nil {
			return nil, fmt.Errorf("can't import package %s", n.Path.Value)
		}
		pkg = pkgname.Imported()
		description = fmt.Sprintf("import of package %q", pkg.Path())

	case *ast.Ident:
		if _, isDef := path[1].(*ast.File); isDef {
			// e.g. package id
			pkg = qpos.info.Pkg
			description = fmt.Sprintf("definition of package %q", pkg.Path())
		} else {
			// e.g. import id "..."
			//  or  id.F()
			pkg = qpos.info.ObjectOf(n).(*types.PkgName).Imported()
			description = fmt.Sprintf("reference to package %q", pkg.Path())
		}

	default:
		// Unreachable?
		return nil, fmt.Errorf("unexpected AST for package: %T", n)
	}

	var members []*describeMember
	// NB: "unsafe" has no types.Package
	if pkg != nil {
		// Enumerate the accessible package members
		// in lexicographic order.
		for _, name := range pkg.Scope().Names() {
			if pkg == qpos.info.Pkg || ast.IsExported(name) {
				mem := pkg.Scope().Lookup(name)
				var methods []*types.Selection
				if mem, ok := mem.(*types.TypeName); ok {
					methods = accessibleMethods(mem.Type(), qpos.info.Pkg)
				}
				members = append(members, &describeMember{
					mem,
					methods,
				})

			}
		}
	}

	return &describePackageResult{qpos.fset, path[0], description, pkg, members}, nil
}
示例#5
0
// pkgString returns a string representation of a package's exported interface.
func pkgString(pkg *types.Package) string {
	var buf bytes.Buffer

	fmt.Fprintf(&buf, "package %s\n", pkg.Name())

	scope := pkg.Scope()
	for _, name := range scope.Names() {
		if exported(name) {
			obj := scope.Lookup(name)
			buf.WriteString(obj.String())

			switch obj := obj.(type) {
			case *types.Const:
				// For now only print constant values if they are not float
				// or complex. This permits comparing go/types results with
				// gc-generated gcimported package interfaces.
				info := obj.Type().Underlying().(*types.Basic).Info()
				if info&types.IsFloat == 0 && info&types.IsComplex == 0 {
					fmt.Fprintf(&buf, " = %s", obj.Val())
				}

			case *types.TypeName:
				// Print associated methods.
				// Basic types (e.g., unsafe.Pointer) have *types.Basic
				// type rather than *types.Named; so we need to check.
				if typ, _ := obj.Type().(*types.Named); typ != nil {
					if n := typ.NumMethods(); n > 0 {
						// Sort methods by name so that we get the
						// same order independent of whether the
						// methods got imported or coming directly
						// for the source.
						// TODO(gri) This should probably be done
						// in go/types.
						list := make([]*types.Func, n)
						for i := 0; i < n; i++ {
							list[i] = typ.Method(i)
						}
						sort.Sort(byName(list))

						buf.WriteString("\nmethods (\n")
						for _, m := range list {
							fmt.Fprintf(&buf, "\t%s\n", m)
						}
						buf.WriteString(")")
					}
				}
			}
			buf.WriteByte('\n')
		}
	}

	return buf.String()
}
示例#6
0
func declTypeName(pkg *types.Package, name string) *types.TypeName {
	scope := pkg.Scope()
	if obj := scope.Lookup(name); obj != nil {
		return obj.(*types.TypeName)
	}
	obj := types.NewTypeName(token.NoPos, pkg, name, nil)
	// a named type may be referred to before the underlying type
	// is known - set it up
	types.NewNamed(obj, nil, nil)
	scope.Insert(obj)
	return obj
}
示例#7
0
func walkPkg(typpkg *types.Package, docpkg *doc.Package, f func(*types.Struct, *types.TypeName, *doc.Package)) {
	for _, name := range typpkg.Scope().Names() {
		obj := typpkg.Scope().Lookup(name)

		if typename, ok := obj.(*types.TypeName); ok {
			named := typename.Type().(*types.Named)

			if strukt, ok := named.Underlying().(*types.Struct); ok && strukt.NumFields() > 0 && strukt.Field(0).Name() == "TypeMeta" {
				if len(os.Args) == 3 || os.Args[3] == typename.Name() {
					f(strukt, typename, docpkg)
				}
			}
		}
	}
}
示例#8
0
func (p *importer) obj(pkg *types.Package) {
	var obj types.Object
	switch tag := p.int(); tag {
	case constTag:
		obj = types.NewConst(token.NoPos, pkg, p.string(), p.typ(), p.value())
	case typeTag:
		// type object is added to scope via respective named type
		_ = p.typ().(*types.Named)
		return
	case varTag:
		obj = types.NewVar(token.NoPos, pkg, p.string(), p.typ())
	case funcTag:
		obj = types.NewFunc(token.NoPos, pkg, p.string(), p.typ().(*types.Signature))
	default:
		panic(fmt.Sprintf("unexpected object tag %d", tag))
	}

	if alt := pkg.Scope().Insert(obj); alt != nil {
		panic(fmt.Sprintf("%s already declared", alt.Name()))
	}
}
示例#9
0
文件: export.go 项目: 2722/lantern
// ExportData serializes the interface (exported package objects)
// of package pkg and returns the corresponding data. The export
// format is described elsewhere (TODO).
func ExportData(pkg *types.Package) []byte {
	p := exporter{
		data:     append([]byte(magic), format()),
		pkgIndex: make(map[*types.Package]int),
		typIndex: make(map[types.Type]int),
	}

	// populate typIndex with predeclared types
	for _, t := range predeclared {
		p.typIndex[t] = len(p.typIndex)
	}

	if trace {
		p.tracef("export %s\n", pkg.Name())
		defer p.tracef("\n")
	}

	p.string(version)

	p.pkg(pkg)

	// collect exported objects from package scope
	var list []types.Object
	scope := pkg.Scope()
	for _, name := range scope.Names() {
		if exported(name) {
			list = append(list, scope.Lookup(name))
		}
	}

	// write objects
	p.int(len(list))
	for _, obj := range list {
		p.obj(obj)
	}

	return p.data
}
示例#10
0
func (p *Processor) processPackage(pkg *Package, typesPkg *types.Package) {
	pkg.Models = make([]*Model, 0)
	pkg.Structs = make([]string, 0)
	pkg.Functions = make([]string, 0)

	s := typesPkg.Scope()
	for _, name := range s.Names() {
		fun := p.tryGetFunction(s.Lookup(name))
		if fun != nil {
			pkg.Functions = append(pkg.Functions, name)
		}

		str := p.tryGetStruct(s.Lookup(name).Type())
		if str == nil {
			continue
		}

		if m := p.processStruct(name, str); m != nil {
			pkg.Models = append(pkg.Models, m)
		} else {
			pkg.Structs = append(pkg.Structs, name)
		}
	}
}
示例#11
0
// funcSig returns the signature of the specified package-level function.
func funcSig(pkg *types.Package, name string) *types.Signature {
	if f, ok := pkg.Scope().Lookup(name).(*types.Func); ok {
		return f.Type().(*types.Signature)
	}
	return nil
}
示例#12
0
// FunctionType = ParamList ResultList .
func (p *parser) parseFunctionType(pkg *types.Package) *types.Signature {
	params, isVariadic := p.parseParamList(pkg)
	results := p.parseResultList(pkg)
	return types.NewSignature(pkg.Scope(), nil, params, results, isVariadic)
}
示例#13
0
func (p *printer) printPackage(pkg *types.Package, filter func(types.Object) bool) {
	// collect objects by kind
	var (
		consts   []*types.Const
		typem    []*types.Named    // non-interface types with methods
		typez    []*types.TypeName // interfaces or types without methods
		vars     []*types.Var
		funcs    []*types.Func
		builtins []*types.Builtin
		methods  = make(map[*types.Named][]*types.Selection) // method sets for named types
	)
	scope := pkg.Scope()
	for _, name := range scope.Names() {
		obj := scope.Lookup(name)
		if obj.Exported() {
			// collect top-level exported and possibly filtered objects
			if filter == nil || filter(obj) {
				switch obj := obj.(type) {
				case *types.Const:
					consts = append(consts, obj)
				case *types.TypeName:
					// group into types with methods and types without
					if named, m := methodsFor(obj); named != nil {
						typem = append(typem, named)
						methods[named] = m
					} else {
						typez = append(typez, obj)
					}
				case *types.Var:
					vars = append(vars, obj)
				case *types.Func:
					funcs = append(funcs, obj)
				case *types.Builtin:
					// for unsafe.Sizeof, etc.
					builtins = append(builtins, obj)
				}
			}
		} else if filter == nil {
			// no filtering: collect top-level unexported types with methods
			if obj, _ := obj.(*types.TypeName); obj != nil {
				// see case *types.TypeName above
				if named, m := methodsFor(obj); named != nil {
					typem = append(typem, named)
					methods[named] = m
				}
			}
		}
	}

	p.printf("package %s  // %q\n", pkg.Name(), pkg.Path())

	p.printDecl("const", len(consts), func() {
		for _, obj := range consts {
			p.printObj(obj)
			p.print("\n")
		}
	})

	p.printDecl("var", len(vars), func() {
		for _, obj := range vars {
			p.printObj(obj)
			p.print("\n")
		}
	})

	p.printDecl("type", len(typez), func() {
		for _, obj := range typez {
			p.printf("%s ", obj.Name())
			p.writeType(p.pkg, obj.Type().Underlying())
			p.print("\n")
		}
	})

	// non-interface types with methods
	for _, named := range typem {
		first := true
		if obj := named.Obj(); obj.Exported() {
			if first {
				p.print("\n")
				first = false
			}
			p.printf("type %s ", obj.Name())
			p.writeType(p.pkg, named.Underlying())
			p.print("\n")
		}
		for _, m := range methods[named] {
			if obj := m.Obj(); obj.Exported() {
				if first {
					p.print("\n")
					first = false
				}
				p.printFunc(m.Recv(), obj.(*types.Func))
				p.print("\n")
			}
		}
	}

	if len(funcs) > 0 {
		p.print("\n")
		for _, obj := range funcs {
			p.printFunc(nil, obj)
			p.print("\n")
		}
	}

	// TODO(gri) better handling of builtins (package unsafe only)
	if len(builtins) > 0 {
		p.print("\n")
		for _, obj := range builtins {
			p.printf("func %s() // builtin\n", obj.Name())
		}
	}

	p.print("\n")
}