vendor/github.com/aws/aws-sdk-go/internal/ini/visitor.go - cloudstack-kubernetes-provider - Git at Google

 package ini

 import (
 	"fmt"
 	"sort"
 )

 // Visitor is an interface used by walkers that will
 // traverse an array of ASTs.
 type Visitor interface {
 	VisitExpr(AST) error
 	VisitStatement(AST) error
 }

 // DefaultVisitor is used to visit statements and expressions
 // and ensure that they are both of the correct format.
 // In addition, upon visiting this will build sections and populate
 // the Sections field which can be used to retrieve profile
 // configuration.
 type DefaultVisitor struct {
 	scope    string
 	Sections Sections
 }

 // NewDefaultVisitor return a DefaultVisitor
 func NewDefaultVisitor() *DefaultVisitor {
 	return &DefaultVisitor{
 		Sections: Sections{
 			container: map[string]Section{},
 		},
 	}
 }

 // VisitExpr visits expressions...
 func (v *DefaultVisitor) VisitExpr(expr AST) error {
 	t := v.Sections.container[v.scope]
 	if t.values == nil {
 		t.values = values{}
 	}

 	switch expr.Kind {
 	case ASTKindExprStatement:
 		opExpr := expr.GetRoot()
 		switch opExpr.Kind {
 		case ASTKindEqualExpr:
 			children := opExpr.GetChildren()
 			if len(children) <= 1 {
 				return NewParseError("unexpected token type")
 			}

 			rhs := children[1]

 			if rhs.Root.Type() != TokenLit {
 				return NewParseError("unexpected token type")
 			}

 			key := EqualExprKey(opExpr)
 			v, err := newValue(rhs.Root.ValueType, rhs.Root.base, rhs.Root.Raw())
 			if err != nil {
 				return err
 			}

 			t.values[key] = v
 		default:
 			return NewParseError(fmt.Sprintf("unsupported expression %v", expr))
 		}
 	default:
 		return NewParseError(fmt.Sprintf("unsupported expression %v", expr))
 	}

 	v.Sections.container[v.scope] = t
 	return nil
 }

 // VisitStatement visits statements...
 func (v *DefaultVisitor) VisitStatement(stmt AST) error {
 	switch stmt.Kind {
 	case ASTKindCompletedSectionStatement:
 		child := stmt.GetRoot()
 		if child.Kind != ASTKindSectionStatement {
 			return NewParseError(fmt.Sprintf("unsupported child statement: %T", child))
 		}

 		name := string(child.Root.Raw())
 		v.Sections.container[name] = Section{}
 		v.scope = name
 	default:
 		return NewParseError(fmt.Sprintf("unsupported statement: %s", stmt.Kind))
 	}

 	return nil
 }

 // Sections is a map of Section structures that represent
 // a configuration.
 type Sections struct {
 	container map[string]Section
 }

 // GetSection will return section p. If section p does not exist,
 // false will be returned in the second parameter.
 func (t Sections) GetSection(p string) (Section, bool) {
 	v, ok := t.container[p]
 	return v, ok
 }

 // values represents a map of union values.
 type values map[string]Value

 // List will return a list of all sections that were successfully
 // parsed.
 func (t Sections) List() []string {
 	keys := make([]string, len(t.container))
 	i := 0
 	for k := range t.container {
 		keys[i] = k
 		i++
 	}

 	sort.Strings(keys)
 	return keys
 }

 // Section contains a name and values. This represent
 // a sectioned entry in a configuration file.
 type Section struct {
 	Name   string
 	values values
 }

 // Has will return whether or not an entry exists in a given section
 func (t Section) Has(k string) bool {
 	_, ok := t.values[k]
 	return ok
 }

 // ValueType will returned what type the union is set to. If
 // k was not found, the NoneType will be returned.
 func (t Section) ValueType(k string) (ValueType, bool) {
 	v, ok := t.values[k]
 	return v.Type, ok
 }

 // Bool returns a bool value at k
 func (t Section) Bool(k string) bool {
 	return t.values[k].BoolValue()
 }

 // Int returns an integer value at k
 func (t Section) Int(k string) int64 {
 	return t.values[k].IntValue()
 }

 // Float64 returns a float value at k
 func (t Section) Float64(k string) float64 {
 	return t.values[k].FloatValue()
 }

 // String returns the string value at k
 func (t Section) String(k string) string {
 	_, ok := t.values[k]
 	if !ok {
 		return ""
 	}
 	return t.values[k].StringValue()
 }
	package ini

	import (
	"fmt"
	"sort"
	)

	// Visitor is an interface used by walkers that will
	// traverse an array of ASTs.
	type Visitor interface {
	VisitExpr(AST) error
	VisitStatement(AST) error
	}

	// DefaultVisitor is used to visit statements and expressions
	// and ensure that they are both of the correct format.
	// In addition, upon visiting this will build sections and populate
	// the Sections field which can be used to retrieve profile
	// configuration.
	type DefaultVisitor struct {
	scope string
	Sections Sections
	}

	// NewDefaultVisitor return a DefaultVisitor
	func NewDefaultVisitor() *DefaultVisitor {
	return &DefaultVisitor{
	Sections: Sections{
	container: map[string]Section{},
	},
	}
	}

	// VisitExpr visits expressions...
	func (v *DefaultVisitor) VisitExpr(expr AST) error {
	t := v.Sections.container[v.scope]
	if t.values == nil {
	t.values = values{}
	}

	switch expr.Kind {
	case ASTKindExprStatement:
	opExpr := expr.GetRoot()
	switch opExpr.Kind {
	case ASTKindEqualExpr:
	children := opExpr.GetChildren()
	if len(children) <= 1 {
	return NewParseError("unexpected token type")
	}

	rhs := children[1]

	if rhs.Root.Type() != TokenLit {
	return NewParseError("unexpected token type")
	}

	key := EqualExprKey(opExpr)
	v, err := newValue(rhs.Root.ValueType, rhs.Root.base, rhs.Root.Raw())
	if err != nil {
	return err
	}

	t.values[key] = v
	default:
	return NewParseError(fmt.Sprintf("unsupported expression %v", expr))
	}
	default:
	return NewParseError(fmt.Sprintf("unsupported expression %v", expr))
	}

	v.Sections.container[v.scope] = t
	return nil
	}

	// VisitStatement visits statements...
	func (v *DefaultVisitor) VisitStatement(stmt AST) error {
	switch stmt.Kind {
	case ASTKindCompletedSectionStatement:
	child := stmt.GetRoot()
	if child.Kind != ASTKindSectionStatement {
	return NewParseError(fmt.Sprintf("unsupported child statement: %T", child))
	}

	name := string(child.Root.Raw())
	v.Sections.container[name] = Section{}
	v.scope = name
	default:
	return NewParseError(fmt.Sprintf("unsupported statement: %s", stmt.Kind))
	}

	return nil
	}

	// Sections is a map of Section structures that represent
	// a configuration.
	type Sections struct {
	container map[string]Section
	}

	// GetSection will return section p. If section p does not exist,
	// false will be returned in the second parameter.
	func (t Sections) GetSection(p string) (Section, bool) {
	v, ok := t.container[p]
	return v, ok
	}

	// values represents a map of union values.
	type values map[string]Value

	// List will return a list of all sections that were successfully
	// parsed.
	func (t Sections) List() []string {
	keys := make([]string, len(t.container))
	i := 0
	for k := range t.container {
	keys[i] = k
	i++
	}

	sort.Strings(keys)
	return keys
	}

	// Section contains a name and values. This represent
	// a sectioned entry in a configuration file.
	type Section struct {
	Name string
	values values
	}

	// Has will return whether or not an entry exists in a given section
	func (t Section) Has(k string) bool {
	_, ok := t.values[k]
	return ok
	}

	// ValueType will returned what type the union is set to. If
	// k was not found, the NoneType will be returned.
	func (t Section) ValueType(k string) (ValueType, bool) {
	v, ok := t.values[k]
	return v.Type, ok
	}

	// Bool returns a bool value at k
	func (t Section) Bool(k string) bool {
	return t.values[k].BoolValue()
	}

	// Int returns an integer value at k
	func (t Section) Int(k string) int64 {
	return t.values[k].IntValue()
	}

	// Float64 returns a float value at k
	func (t Section) Float64(k string) float64 {
	return t.values[k].FloatValue()
	}

	// String returns the string value at k
	func (t Section) String(k string) string {
	_, ok := t.values[k]
	if !ok {
	return ""
	}
	return t.values[k].StringValue()
	}