name_interface.go - platform/build/blueprint - Git at Google

 // Copyright 2017 Google Inc. All rights reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package blueprint

 import (
 	"fmt"
 	"sort"
 )

 // This file exposes the logic of locating a module via a query string, to enable
 // other projects to override it if desired.
 // The default name resolution implementation, SimpleNameInterface,
 // just treats the query string as a module name, and does a simple map lookup.

 // A ModuleGroup just points to a moduleGroup to allow external packages to refer
 // to a moduleGroup but not use it
 type ModuleGroup struct {
 	*moduleGroup
 }

 func (h *ModuleGroup) String() string {
 	return h.moduleGroup.name
 }

 // The Namespace interface is just a marker interface for usage by the NameInterface,
 // to allow a NameInterface to specify that a certain parameter should be a Namespace.
 // In practice, a specific NameInterface will expect to only give and receive structs of
 // the same concrete type, but because Go doesn't support generics, we use a marker interface
 // for a little bit of clarity, and expect implementers to do typecasting instead.
 type Namespace interface {
 	namespace(Namespace)
 }
 type NamespaceMarker struct {
 }

 func (m *NamespaceMarker) namespace(Namespace) {
 }

 // A NameInterface tells how to locate modules by name.
 // There should only be one name interface per Context, but potentially many namespaces
 type NameInterface interface {
 	// Gets called when a new module is created
 	NewModule(ctx NamespaceContext, group ModuleGroup, module Module) (namespace Namespace, err []error)

 	// Finds the module with the given name
 	ModuleFromName(moduleName string, namespace Namespace) (group ModuleGroup, found bool)

 	// Returns an error indicating that the given module could not be found.
 	// The error contains some diagnostic information about where the dependency can be found.
 	MissingDependencyError(depender string, dependerNamespace Namespace, depName string) (err error)

 	// Rename
 	Rename(oldName string, newName string, namespace Namespace) []error

 	// Returns all modules in a deterministic order.
 	AllModules() []ModuleGroup

 	// gets the namespace for a given path
 	GetNamespace(ctx NamespaceContext) (namespace Namespace)

 	// returns a deterministic, unique, arbitrary string for the given name in the given namespace
 	UniqueName(ctx NamespaceContext, name string) (unique string)
 }

 // A NamespaceContext stores the information given to a NameInterface to enable the NameInterface
 // to choose the namespace for any given module
 type NamespaceContext interface {
 	ModulePath() string
 }

 type namespaceContextImpl struct {
 	modulePath string
 }

 func newNamespaceContext(moduleInfo *moduleInfo) (ctx NamespaceContext) {
 	return &namespaceContextImpl{moduleInfo.pos.Filename}
 }

 func (ctx *namespaceContextImpl) ModulePath() string {
 	return ctx.modulePath
 }

 // a SimpleNameInterface just stores all modules in a map based on name
 type SimpleNameInterface struct {
 	modules map[string]ModuleGroup
 }

 func NewSimpleNameInterface() *SimpleNameInterface {
 	return &SimpleNameInterface{
 		modules: make(map[string]ModuleGroup),
 	}
 }

 func (s *SimpleNameInterface) NewModule(ctx NamespaceContext, group ModuleGroup, module Module) (namespace Namespace, err []error) {
 	name := group.name
 	if group, present := s.modules[name]; present {
 		return nil, []error{
 			// seven characters at the start of the second line to align with the string "error: "
 			fmt.Errorf("module %q already defined\n"+
 				"       %s <-- previous definition here", name, group.modules[0].pos),
 		}
 	}

 	s.modules[name] = group

 	return nil, []error{}
 }

 func (s *SimpleNameInterface) ModuleFromName(moduleName string, namespace Namespace) (group ModuleGroup, found bool) {
 	group, found = s.modules[moduleName]
 	return group, found
 }

 func (s *SimpleNameInterface) Rename(oldName string, newName string, namespace Namespace) (errs []error) {
 	existingGroup, exists := s.modules[newName]
 	if exists {
 		return []error{
 			// seven characters at the start of the second line to align with the string "error: "
 			fmt.Errorf("renaming module %q to %q conflicts with existing module\n"+
 				"       %s <-- existing module defined here",
 				oldName, newName, existingGroup.modules[0].pos),
 		}
 	}

 	group, exists := s.modules[oldName]
 	if !exists {
 		return []error{fmt.Errorf("module %q to renamed to %q doesn't exist", oldName, newName)}
 	}
 	s.modules[newName] = group
 	delete(s.modules, group.name)
 	group.name = newName
 	return nil
 }

 func (s *SimpleNameInterface) AllModules() []ModuleGroup {
 	groups := make([]ModuleGroup, 0, len(s.modules))
 	for _, group := range s.modules {
 		groups = append(groups, group)
 	}

 	duplicateName := ""
 	less := func(i, j int) bool {
 		if groups[i].name == groups[j].name {
 			duplicateName = groups[i].name
 		}
 		return groups[i].name < groups[j].name
 	}
 	sort.Slice(groups, less)
 	if duplicateName != "" {
 		// It is permitted to have two moduleGroup's with the same name, but not within the same
 		// Namespace. The SimpleNameInterface should catch this in NewModule, however, so this
 		// should never happen.
 		panic(fmt.Sprintf("Duplicate moduleGroup name %q", duplicateName))
 	}
 	return groups
 }

 func (s *SimpleNameInterface) MissingDependencyError(depender string, dependerNamespace Namespace, dependency string) (err error) {
 	return fmt.Errorf("%q depends on undefined module %q", depender, dependency)
 }

 func (s *SimpleNameInterface) GetNamespace(ctx NamespaceContext) Namespace {
 	return nil
 }

 func (s *SimpleNameInterface) UniqueName(ctx NamespaceContext, name string) (unique string) {
 	return name
 }
	// Copyright 2017 Google Inc. All rights reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package blueprint

	import (
	"fmt"
	"sort"
	)

	// This file exposes the logic of locating a module via a query string, to enable
	// other projects to override it if desired.
	// The default name resolution implementation, SimpleNameInterface,
	// just treats the query string as a module name, and does a simple map lookup.

	// A ModuleGroup just points to a moduleGroup to allow external packages to refer
	// to a moduleGroup but not use it
	type ModuleGroup struct {
	*moduleGroup
	}

	func (h *ModuleGroup) String() string {
	return h.moduleGroup.name
	}

	// The Namespace interface is just a marker interface for usage by the NameInterface,
	// to allow a NameInterface to specify that a certain parameter should be a Namespace.
	// In practice, a specific NameInterface will expect to only give and receive structs of
	// the same concrete type, but because Go doesn't support generics, we use a marker interface
	// for a little bit of clarity, and expect implementers to do typecasting instead.
	type Namespace interface {
	namespace(Namespace)
	}
	type NamespaceMarker struct {
	}

	func (m *NamespaceMarker) namespace(Namespace) {
	}

	// A NameInterface tells how to locate modules by name.
	// There should only be one name interface per Context, but potentially many namespaces
	type NameInterface interface {
	// Gets called when a new module is created
	NewModule(ctx NamespaceContext, group ModuleGroup, module Module) (namespace Namespace, err []error)

	// Finds the module with the given name
	ModuleFromName(moduleName string, namespace Namespace) (group ModuleGroup, found bool)

	// Returns an error indicating that the given module could not be found.
	// The error contains some diagnostic information about where the dependency can be found.
	MissingDependencyError(depender string, dependerNamespace Namespace, depName string) (err error)

	// Rename
	Rename(oldName string, newName string, namespace Namespace) []error

	// Returns all modules in a deterministic order.
	AllModules() []ModuleGroup

	// gets the namespace for a given path
	GetNamespace(ctx NamespaceContext) (namespace Namespace)

	// returns a deterministic, unique, arbitrary string for the given name in the given namespace
	UniqueName(ctx NamespaceContext, name string) (unique string)
	}

	// A NamespaceContext stores the information given to a NameInterface to enable the NameInterface
	// to choose the namespace for any given module
	type NamespaceContext interface {
	ModulePath() string
	}

	type namespaceContextImpl struct {
	modulePath string
	}

	func newNamespaceContext(moduleInfo *moduleInfo) (ctx NamespaceContext) {
	return &namespaceContextImpl{moduleInfo.pos.Filename}
	}

	func (ctx *namespaceContextImpl) ModulePath() string {
	return ctx.modulePath
	}

	// a SimpleNameInterface just stores all modules in a map based on name
	type SimpleNameInterface struct {
	modules map[string]ModuleGroup
	}

	func NewSimpleNameInterface() *SimpleNameInterface {
	return &SimpleNameInterface{
	modules: make(map[string]ModuleGroup),
	}
	}

	func (s *SimpleNameInterface) NewModule(ctx NamespaceContext, group ModuleGroup, module Module) (namespace Namespace, err []error) {
	name := group.name
	if group, present := s.modules[name]; present {
	return nil, []error{
	// seven characters at the start of the second line to align with the string "error: "
	fmt.Errorf("module %q already defined\n"+
	" %s <-- previous definition here", name, group.modules[0].pos),
	}
	}

	s.modules[name] = group

	return nil, []error{}
	}

	func (s *SimpleNameInterface) ModuleFromName(moduleName string, namespace Namespace) (group ModuleGroup, found bool) {
	group, found = s.modules[moduleName]
	return group, found
	}

	func (s *SimpleNameInterface) Rename(oldName string, newName string, namespace Namespace) (errs []error) {
	existingGroup, exists := s.modules[newName]
	if exists {
	return []error{
	// seven characters at the start of the second line to align with the string "error: "
	fmt.Errorf("renaming module %q to %q conflicts with existing module\n"+
	" %s <-- existing module defined here",
	oldName, newName, existingGroup.modules[0].pos),
	}
	}

	group, exists := s.modules[oldName]
	if !exists {
	return []error{fmt.Errorf("module %q to renamed to %q doesn't exist", oldName, newName)}
	}
	s.modules[newName] = group
	delete(s.modules, group.name)
	group.name = newName
	return nil
	}

	func (s *SimpleNameInterface) AllModules() []ModuleGroup {
	groups := make([]ModuleGroup, 0, len(s.modules))
	for _, group := range s.modules {
	groups = append(groups, group)
	}

	duplicateName := ""
	less := func(i, j int) bool {
	if groups[i].name == groups[j].name {
	duplicateName = groups[i].name
	}
	return groups[i].name < groups[j].name
	}
	sort.Slice(groups, less)
	if duplicateName != "" {
	// It is permitted to have two moduleGroup's with the same name, but not within the same
	// Namespace. The SimpleNameInterface should catch this in NewModule, however, so this
	// should never happen.
	panic(fmt.Sprintf("Duplicate moduleGroup name %q", duplicateName))
	}
	return groups
	}

	func (s *SimpleNameInterface) MissingDependencyError(depender string, dependerNamespace Namespace, dependency string) (err error) {
	return fmt.Errorf("%q depends on undefined module %q", depender, dependency)
	}

	func (s *SimpleNameInterface) GetNamespace(ctx NamespaceContext) Namespace {
	return nil
	}

	func (s *SimpleNameInterface) UniqueName(ctx NamespaceContext, name string) (unique string) {
	return name
	}