vendor/github.com/zclconf/go-cty/cty/map_type.go - cloudstack-terraform-provider - Git at Google

 package cty

 import (
 	"fmt"
 )

 // TypeList instances represent specific list types. Each distinct ElementType
 // creates a distinct, non-equal list type.
 type typeMap struct {
 	typeImplSigil
 	ElementTypeT Type
 }

 // Map creates a map type with the given element Type.
 //
 // Map types are CollectionType implementations.
 func Map(elem Type) Type {
 	return Type{
 		typeMap{
 			ElementTypeT: elem,
 		},
 	}
 }

 // Equals returns true if the other Type is a map whose element type is
 // equal to that of the receiver.
 func (t typeMap) Equals(other Type) bool {
 	ot, isMap := other.typeImpl.(typeMap)
 	if !isMap {
 		return false
 	}

 	return t.ElementTypeT.Equals(ot.ElementTypeT)
 }

 func (t typeMap) FriendlyName(mode friendlyTypeNameMode) string {
 	elemName := t.ElementTypeT.friendlyNameMode(mode)
 	if mode == friendlyTypeConstraintName {
 		if t.ElementTypeT == DynamicPseudoType {
 			elemName = "any single type"
 		}
 	}
 	return "map of " + elemName
 }

 func (t typeMap) ElementType() Type {
 	return t.ElementTypeT
 }

 func (t typeMap) GoString() string {
 	return fmt.Sprintf("cty.Map(%#v)", t.ElementTypeT)
 }

 // IsMapType returns true if the given type is a list type, regardless of its
 // element type.
 func (t Type) IsMapType() bool {
 	_, ok := t.typeImpl.(typeMap)
 	return ok
 }

 // MapElementType is a convenience method that checks if the given type is
 // a map type, returning a pointer to its element type if so and nil
 // otherwise. This is intended to allow convenient conditional branches,
 // like so:
 //
 //     if et := t.MapElementType(); et != nil {
 //         // Do something with *et
 //     }
 func (t Type) MapElementType() *Type {
 	if lt, ok := t.typeImpl.(typeMap); ok {
 		return &lt.ElementTypeT
 	}
 	return nil
 }
	package cty

	import (
	"fmt"
	)

	// TypeList instances represent specific list types. Each distinct ElementType
	// creates a distinct, non-equal list type.
	type typeMap struct {
	typeImplSigil
	ElementTypeT Type
	}

	// Map creates a map type with the given element Type.
	//
	// Map types are CollectionType implementations.
	func Map(elem Type) Type {
	return Type{
	typeMap{
	ElementTypeT: elem,
	},
	}
	}

	// Equals returns true if the other Type is a map whose element type is
	// equal to that of the receiver.
	func (t typeMap) Equals(other Type) bool {
	ot, isMap := other.typeImpl.(typeMap)
	if !isMap {
	return false
	}

	return t.ElementTypeT.Equals(ot.ElementTypeT)
	}

	func (t typeMap) FriendlyName(mode friendlyTypeNameMode) string {
	elemName := t.ElementTypeT.friendlyNameMode(mode)
	if mode == friendlyTypeConstraintName {
	if t.ElementTypeT == DynamicPseudoType {
	elemName = "any single type"
	}
	}
	return "map of " + elemName
	}

	func (t typeMap) ElementType() Type {
	return t.ElementTypeT
	}

	func (t typeMap) GoString() string {
	return fmt.Sprintf("cty.Map(%#v)", t.ElementTypeT)
	}

	// IsMapType returns true if the given type is a list type, regardless of its
	// element type.
	func (t Type) IsMapType() bool {
	_, ok := t.typeImpl.(typeMap)
	return ok
	}

	// MapElementType is a convenience method that checks if the given type is
	// a map type, returning a pointer to its element type if so and nil
	// otherwise. This is intended to allow convenient conditional branches,
	// like so:
	//
	// if et := t.MapElementType(); et != nil {
	// // Do something with *et
	// }
	func (t Type) MapElementType() *Type {
	if lt, ok := t.typeImpl.(typeMap); ok {
	return &lt.ElementTypeT
	}
	return nil
	}