internal/filedesc/desc_list.go - protobuf - Git at Google

 // Copyright 2019 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package filedesc

 import (
 	"fmt"
 	"math"
 	"sort"
 	"sync"

 	"google.golang.org/protobuf/internal/descfmt"
 	"google.golang.org/protobuf/internal/encoding/wire"
 	"google.golang.org/protobuf/internal/errors"
 	"google.golang.org/protobuf/internal/pragma"
 	"google.golang.org/protobuf/reflect/protoreflect"
 	pref "google.golang.org/protobuf/reflect/protoreflect"
 )

 type FileImports []pref.FileImport

 func (p *FileImports) Len() int                            { return len(*p) }
 func (p *FileImports) Get(i int) pref.FileImport           { return (*p)[i] }
 func (p *FileImports) Format(s fmt.State, r rune)          { descfmt.FormatList(s, r, p) }
 func (p *FileImports) ProtoInternal(pragma.DoNotImplement) {}

 type Names struct {
 	List []pref.Name
 	once sync.Once
 	has  map[pref.Name]int // protected by once
 }

 func (p *Names) Len() int                            { return len(p.List) }
 func (p *Names) Get(i int) pref.Name                 { return p.List[i] }
 func (p *Names) Has(s pref.Name) bool                { return p.lazyInit().has[s] > 0 }
 func (p *Names) Format(s fmt.State, r rune)          { descfmt.FormatList(s, r, p) }
 func (p *Names) ProtoInternal(pragma.DoNotImplement) {}
 func (p *Names) lazyInit() *Names {
 	p.once.Do(func() {
 		if len(p.List) > 0 {
 			p.has = make(map[pref.Name]int, len(p.List))
 			for _, s := range p.List {
 				p.has[s] = p.has[s] + 1
 			}
 		}
 	})
 	return p
 }

 // CheckValid reports any errors with the set of names with an error message
 // that completes the sentence: "ranges is invalid because it has ..."
 func (p *Names) CheckValid() error {
 	for s, n := range p.lazyInit().has {
 		switch {
 		case n > 1:
 			return errors.New("duplicate name: %q", s)
 		case false && !s.IsValid():
 			// NOTE: The C++ implementation does not validate the identifier.
 			// See https://github.com/protocolbuffers/protobuf/issues/6335.
 			return errors.New("invalid name: %q", s)
 		}
 	}
 	return nil
 }

 type EnumRanges struct {
 	List   [][2]pref.EnumNumber // start inclusive; end inclusive
 	once   sync.Once
 	sorted [][2]pref.EnumNumber // protected by once
 }

 func (p *EnumRanges) Len() int                     { return len(p.List) }
 func (p *EnumRanges) Get(i int) [2]pref.EnumNumber { return p.List[i] }
 func (p *EnumRanges) Has(n pref.EnumNumber) bool {
 	for ls := p.lazyInit().sorted; len(ls) > 0; {
 		i := len(ls) / 2
 		switch r := enumRange(ls[i]); {
 		case n < r.Start():
 			ls = ls[:i] // search lower
 		case n > r.End():
 			ls = ls[i+1:] // search upper
 		default:
 			return true
 		}
 	}
 	return false
 }
 func (p *EnumRanges) Format(s fmt.State, r rune)          { descfmt.FormatList(s, r, p) }
 func (p *EnumRanges) ProtoInternal(pragma.DoNotImplement) {}
 func (p *EnumRanges) lazyInit() *EnumRanges {
 	p.once.Do(func() {
 		p.sorted = append(p.sorted, p.List...)
 		sort.Slice(p.sorted, func(i, j int) bool {
 			return p.sorted[i][0] < p.sorted[j][0]
 		})
 	})
 	return p
 }

 // CheckValid reports any errors with the set of names with an error message
 // that completes the sentence: "ranges is invalid because it has ..."
 func (p *EnumRanges) CheckValid() error {
 	var rp enumRange
 	for i, r := range p.lazyInit().sorted {
 		r := enumRange(r)
 		switch {
 		case !(r.Start() <= r.End()):
 			return errors.New("invalid range: %v", r)
 		case !(rp.End() < r.Start()) && i > 0:
 			return errors.New("overlapping ranges: %v with %v", rp, r)
 		}
 		rp = r
 	}
 	return nil
 }

 type enumRange [2]protoreflect.EnumNumber

 func (r enumRange) Start() protoreflect.EnumNumber { return r[0] } // inclusive
 func (r enumRange) End() protoreflect.EnumNumber   { return r[1] } // inclusive
 func (r enumRange) String() string {
 	if r.Start() == r.End() {
 		return fmt.Sprintf("%d", r.Start())
 	}
 	return fmt.Sprintf("%d to %d", r.Start(), r.End())
 }

 type FieldRanges struct {
 	List   [][2]pref.FieldNumber // start inclusive; end exclusive
 	once   sync.Once
 	sorted [][2]pref.FieldNumber // protected by once
 }

 func (p *FieldRanges) Len() int                      { return len(p.List) }
 func (p *FieldRanges) Get(i int) [2]pref.FieldNumber { return p.List[i] }
 func (p *FieldRanges) Has(n pref.FieldNumber) bool {
 	for ls := p.lazyInit().sorted; len(ls) > 0; {
 		i := len(ls) / 2
 		switch r := fieldRange(ls[i]); {
 		case n < r.Start():
 			ls = ls[:i] // search lower
 		case n > r.End():
 			ls = ls[i+1:] // search upper
 		default:
 			return true
 		}
 	}
 	return false
 }
 func (p *FieldRanges) Format(s fmt.State, r rune)          { descfmt.FormatList(s, r, p) }
 func (p *FieldRanges) ProtoInternal(pragma.DoNotImplement) {}
 func (p *FieldRanges) lazyInit() *FieldRanges {
 	p.once.Do(func() {
 		p.sorted = append(p.sorted, p.List...)
 		sort.Slice(p.sorted, func(i, j int) bool {
 			return p.sorted[i][0] < p.sorted[j][0]
 		})
 	})
 	return p
 }

 // CheckValid reports any errors with the set of ranges with an error message
 // that completes the sentence: "ranges is invalid because it has ..."
 func (p *FieldRanges) CheckValid(isMessageSet bool) error {
 	var rp fieldRange
 	for i, r := range p.lazyInit().sorted {
 		r := fieldRange(r)
 		switch {
 		case !isValidFieldNumber(r.Start(), isMessageSet):
 			return errors.New("invalid field number: %d", r.Start())
 		case !isValidFieldNumber(r.End(), isMessageSet):
 			return errors.New("invalid field number: %d", r.End())
 		case !(r.Start() <= r.End()):
 			return errors.New("invalid range: %v", r)
 		case !(rp.End() < r.Start()) && i > 0:
 			return errors.New("overlapping ranges: %v with %v", rp, r)
 		}
 		rp = r
 	}
 	return nil
 }

 // isValidFieldNumber reports whether the field number is valid.
 // Unlike the FieldNumber.IsValid method, it allows ranges that cover the
 // reserved number range.
 func isValidFieldNumber(n protoreflect.FieldNumber, isMessageSet bool) bool {
 	if isMessageSet {
 		return wire.MinValidNumber <= n && n <= math.MaxInt32
 	}
 	return wire.MinValidNumber <= n && n <= wire.MaxValidNumber
 }

 // CheckOverlap reports an error if p and q overlap.
 func (p *FieldRanges) CheckOverlap(q *FieldRanges) error {
 	rps := p.lazyInit().sorted
 	rqs := q.lazyInit().sorted
 	for pi, qi := 0, 0; pi < len(rps) && qi < len(rqs); {
 		rp := fieldRange(rps[pi])
 		rq := fieldRange(rqs[qi])
 		if !(rp.End() < rq.Start() || rq.End() < rp.Start()) {
 			return errors.New("overlapping ranges: %v with %v", rp, rq)
 		}
 		if rp.Start() < rq.Start() {
 			pi++
 		} else {
 			qi++
 		}
 	}
 	return nil
 }

 type fieldRange [2]protoreflect.FieldNumber

 func (r fieldRange) Start() protoreflect.FieldNumber { return r[0] }     // inclusive
 func (r fieldRange) End() protoreflect.FieldNumber   { return r[1] - 1 } // inclusive
 func (r fieldRange) String() string {
 	if r.Start() == r.End() {
 		return fmt.Sprintf("%d", r.Start())
 	}
 	return fmt.Sprintf("%d to %d", r.Start(), r.End())
 }

 type FieldNumbers struct {
 	List []pref.FieldNumber
 	once sync.Once
 	has  map[pref.FieldNumber]struct{} // protected by once
 }

 func (p *FieldNumbers) Len() int                   { return len(p.List) }
 func (p *FieldNumbers) Get(i int) pref.FieldNumber { return p.List[i] }
 func (p *FieldNumbers) Has(n pref.FieldNumber) bool {
 	p.once.Do(func() {
 		if len(p.List) > 0 {
 			p.has = make(map[pref.FieldNumber]struct{}, len(p.List))
 			for _, n := range p.List {
 				p.has[n] = struct{}{}
 			}
 		}
 	})
 	_, ok := p.has[n]
 	return ok
 }
 func (p *FieldNumbers) Format(s fmt.State, r rune)          { descfmt.FormatList(s, r, p) }
 func (p *FieldNumbers) ProtoInternal(pragma.DoNotImplement) {}

 type OneofFields struct {
 	List   []pref.FieldDescriptor
 	once   sync.Once
 	byName map[pref.Name]pref.FieldDescriptor        // protected by once
 	byJSON map[string]pref.FieldDescriptor           // protected by once
 	byNum  map[pref.FieldNumber]pref.FieldDescriptor // protected by once
 }

 func (p *OneofFields) Len() int                                         { return len(p.List) }
 func (p *OneofFields) Get(i int) pref.FieldDescriptor                   { return p.List[i] }
 func (p *OneofFields) ByName(s pref.Name) pref.FieldDescriptor          { return p.lazyInit().byName[s] }
 func (p *OneofFields) ByJSONName(s string) pref.FieldDescriptor         { return p.lazyInit().byJSON[s] }
 func (p *OneofFields) ByNumber(n pref.FieldNumber) pref.FieldDescriptor { return p.lazyInit().byNum[n] }
 func (p *OneofFields) Format(s fmt.State, r rune)                       { descfmt.FormatList(s, r, p) }
 func (p *OneofFields) ProtoInternal(pragma.DoNotImplement)              {}

 func (p *OneofFields) lazyInit() *OneofFields {
 	p.once.Do(func() {
 		if len(p.List) > 0 {
 			p.byName = make(map[pref.Name]pref.FieldDescriptor, len(p.List))
 			p.byJSON = make(map[string]pref.FieldDescriptor, len(p.List))
 			p.byNum = make(map[pref.FieldNumber]pref.FieldDescriptor, len(p.List))
 			for _, f := range p.List {
 				// Field names and numbers are guaranteed to be unique.
 				p.byName[f.Name()] = f
 				p.byJSON[f.JSONName()] = f
 				p.byNum[f.Number()] = f
 			}
 		}
 	})
 	return p
 }

 type SourceLocations struct {
 	List []pref.SourceLocation
 }

 func (p *SourceLocations) Len() int                            { return len(p.List) }
 func (p *SourceLocations) Get(i int) pref.SourceLocation       { return p.List[i] }
 func (p *SourceLocations) ProtoInternal(pragma.DoNotImplement) {}
	// Copyright 2019 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package filedesc

	import (
	"fmt"
	"math"
	"sort"
	"sync"

	"google.golang.org/protobuf/internal/descfmt"
	"google.golang.org/protobuf/internal/encoding/wire"
	"google.golang.org/protobuf/internal/errors"
	"google.golang.org/protobuf/internal/pragma"
	"google.golang.org/protobuf/reflect/protoreflect"
	pref "google.golang.org/protobuf/reflect/protoreflect"
	)

	type FileImports []pref.FileImport

	func (p FileImports) Len() int { return len(p) }
	func (p FileImports) Get(i int) pref.FileImport { return (p)[i] }
	func (p *FileImports) Format(s fmt.State, r rune) { descfmt.FormatList(s, r, p) }
	func (p *FileImports) ProtoInternal(pragma.DoNotImplement) {}

	type Names struct {
	List []pref.Name
	once sync.Once
	has map[pref.Name]int // protected by once
	}

	func (p *Names) Len() int { return len(p.List) }
	func (p *Names) Get(i int) pref.Name { return p.List[i] }
	func (p *Names) Has(s pref.Name) bool { return p.lazyInit().has[s] > 0 }
	func (p *Names) Format(s fmt.State, r rune) { descfmt.FormatList(s, r, p) }
	func (p *Names) ProtoInternal(pragma.DoNotImplement) {}
	func (p Names) lazyInit() Names {
	p.once.Do(func() {
	if len(p.List) > 0 {
	p.has = make(map[pref.Name]int, len(p.List))
	for _, s := range p.List {
	p.has[s] = p.has[s] + 1
	}
	}
	})
	return p
	}

	// CheckValid reports any errors with the set of names with an error message
	// that completes the sentence: "ranges is invalid because it has ..."
	func (p *Names) CheckValid() error {
	for s, n := range p.lazyInit().has {
	switch {
	case n > 1:
	return errors.New("duplicate name: %q", s)
	case false && !s.IsValid():
	// NOTE: The C++ implementation does not validate the identifier.
	// See https://github.com/protocolbuffers/protobuf/issues/6335.
	return errors.New("invalid name: %q", s)
	}
	}
	return nil
	}

	type EnumRanges struct {
	List [][2]pref.EnumNumber // start inclusive; end inclusive
	once sync.Once
	sorted [][2]pref.EnumNumber // protected by once
	}

	func (p *EnumRanges) Len() int { return len(p.List) }
	func (p *EnumRanges) Get(i int) [2]pref.EnumNumber { return p.List[i] }
	func (p *EnumRanges) Has(n pref.EnumNumber) bool {
	for ls := p.lazyInit().sorted; len(ls) > 0; {
	i := len(ls) / 2
	switch r := enumRange(ls[i]); {
	case n < r.Start():
	ls = ls[:i] // search lower
	case n > r.End():
	ls = ls[i+1:] // search upper
	default:
	return true
	}
	}
	return false
	}
	func (p *EnumRanges) Format(s fmt.State, r rune) { descfmt.FormatList(s, r, p) }
	func (p *EnumRanges) ProtoInternal(pragma.DoNotImplement) {}
	func (p EnumRanges) lazyInit() EnumRanges {
	p.once.Do(func() {
	p.sorted = append(p.sorted, p.List...)
	sort.Slice(p.sorted, func(i, j int) bool {
	return p.sorted[i][0] < p.sorted[j][0]
	})
	})
	return p
	}

	// CheckValid reports any errors with the set of names with an error message
	// that completes the sentence: "ranges is invalid because it has ..."
	func (p *EnumRanges) CheckValid() error {
	var rp enumRange
	for i, r := range p.lazyInit().sorted {
	r := enumRange(r)
	switch {
	case !(r.Start() <= r.End()):
	return errors.New("invalid range: %v", r)
	case !(rp.End() < r.Start()) && i > 0:
	return errors.New("overlapping ranges: %v with %v", rp, r)
	}
	rp = r
	}
	return nil
	}

	type enumRange [2]protoreflect.EnumNumber

	func (r enumRange) Start() protoreflect.EnumNumber { return r[0] } // inclusive
	func (r enumRange) End() protoreflect.EnumNumber { return r[1] } // inclusive
	func (r enumRange) String() string {
	if r.Start() == r.End() {
	return fmt.Sprintf("%d", r.Start())
	}
	return fmt.Sprintf("%d to %d", r.Start(), r.End())
	}

	type FieldRanges struct {
	List [][2]pref.FieldNumber // start inclusive; end exclusive
	once sync.Once
	sorted [][2]pref.FieldNumber // protected by once
	}

	func (p *FieldRanges) Len() int { return len(p.List) }
	func (p *FieldRanges) Get(i int) [2]pref.FieldNumber { return p.List[i] }
	func (p *FieldRanges) Has(n pref.FieldNumber) bool {
	for ls := p.lazyInit().sorted; len(ls) > 0; {
	i := len(ls) / 2
	switch r := fieldRange(ls[i]); {
	case n < r.Start():
	ls = ls[:i] // search lower
	case n > r.End():
	ls = ls[i+1:] // search upper
	default:
	return true
	}
	}
	return false
	}
	func (p *FieldRanges) Format(s fmt.State, r rune) { descfmt.FormatList(s, r, p) }
	func (p *FieldRanges) ProtoInternal(pragma.DoNotImplement) {}
	func (p FieldRanges) lazyInit() FieldRanges {
	p.once.Do(func() {
	p.sorted = append(p.sorted, p.List...)
	sort.Slice(p.sorted, func(i, j int) bool {
	return p.sorted[i][0] < p.sorted[j][0]
	})
	})
	return p
	}

	// CheckValid reports any errors with the set of ranges with an error message
	// that completes the sentence: "ranges is invalid because it has ..."
	func (p *FieldRanges) CheckValid(isMessageSet bool) error {
	var rp fieldRange
	for i, r := range p.lazyInit().sorted {
	r := fieldRange(r)
	switch {
	case !isValidFieldNumber(r.Start(), isMessageSet):
	return errors.New("invalid field number: %d", r.Start())
	case !isValidFieldNumber(r.End(), isMessageSet):
	return errors.New("invalid field number: %d", r.End())
	case !(r.Start() <= r.End()):
	return errors.New("invalid range: %v", r)
	case !(rp.End() < r.Start()) && i > 0:
	return errors.New("overlapping ranges: %v with %v", rp, r)
	}
	rp = r
	}
	return nil
	}

	// isValidFieldNumber reports whether the field number is valid.
	// Unlike the FieldNumber.IsValid method, it allows ranges that cover the
	// reserved number range.
	func isValidFieldNumber(n protoreflect.FieldNumber, isMessageSet bool) bool {
	if isMessageSet {
	return wire.MinValidNumber <= n && n <= math.MaxInt32
	}
	return wire.MinValidNumber <= n && n <= wire.MaxValidNumber
	}

	// CheckOverlap reports an error if p and q overlap.
	func (p FieldRanges) CheckOverlap(q FieldRanges) error {
	rps := p.lazyInit().sorted
	rqs := q.lazyInit().sorted
	for pi, qi := 0, 0; pi < len(rps) && qi < len(rqs); {
	rp := fieldRange(rps[pi])
	rq := fieldRange(rqs[qi])
	if !(rp.End() < rq.Start() \|\| rq.End() < rp.Start()) {
	return errors.New("overlapping ranges: %v with %v", rp, rq)
	}
	if rp.Start() < rq.Start() {
	pi++
	} else {
	qi++
	}
	}
	return nil
	}

	type fieldRange [2]protoreflect.FieldNumber

	func (r fieldRange) Start() protoreflect.FieldNumber { return r[0] } // inclusive
	func (r fieldRange) End() protoreflect.FieldNumber { return r[1] - 1 } // inclusive
	func (r fieldRange) String() string {
	if r.Start() == r.End() {
	return fmt.Sprintf("%d", r.Start())
	}
	return fmt.Sprintf("%d to %d", r.Start(), r.End())
	}

	type FieldNumbers struct {
	List []pref.FieldNumber
	once sync.Once
	has map[pref.FieldNumber]struct{} // protected by once
	}

	func (p *FieldNumbers) Len() int { return len(p.List) }
	func (p *FieldNumbers) Get(i int) pref.FieldNumber { return p.List[i] }
	func (p *FieldNumbers) Has(n pref.FieldNumber) bool {
	p.once.Do(func() {
	if len(p.List) > 0 {
	p.has = make(map[pref.FieldNumber]struct{}, len(p.List))
	for _, n := range p.List {
	p.has[n] = struct{}{}
	}
	}
	})
	_, ok := p.has[n]
	return ok
	}
	func (p *FieldNumbers) Format(s fmt.State, r rune) { descfmt.FormatList(s, r, p) }
	func (p *FieldNumbers) ProtoInternal(pragma.DoNotImplement) {}

	type OneofFields struct {
	List []pref.FieldDescriptor
	once sync.Once
	byName map[pref.Name]pref.FieldDescriptor // protected by once
	byJSON map[string]pref.FieldDescriptor // protected by once
	byNum map[pref.FieldNumber]pref.FieldDescriptor // protected by once
	}

	func (p *OneofFields) Len() int { return len(p.List) }
	func (p *OneofFields) Get(i int) pref.FieldDescriptor { return p.List[i] }
	func (p *OneofFields) ByName(s pref.Name) pref.FieldDescriptor { return p.lazyInit().byName[s] }
	func (p *OneofFields) ByJSONName(s string) pref.FieldDescriptor { return p.lazyInit().byJSON[s] }
	func (p *OneofFields) ByNumber(n pref.FieldNumber) pref.FieldDescriptor { return p.lazyInit().byNum[n] }
	func (p *OneofFields) Format(s fmt.State, r rune) { descfmt.FormatList(s, r, p) }
	func (p *OneofFields) ProtoInternal(pragma.DoNotImplement) {}

	func (p OneofFields) lazyInit() OneofFields {
	p.once.Do(func() {
	if len(p.List) > 0 {
	p.byName = make(map[pref.Name]pref.FieldDescriptor, len(p.List))
	p.byJSON = make(map[string]pref.FieldDescriptor, len(p.List))
	p.byNum = make(map[pref.FieldNumber]pref.FieldDescriptor, len(p.List))
	for _, f := range p.List {
	// Field names and numbers are guaranteed to be unique.
	p.byName[f.Name()] = f
	p.byJSON[f.JSONName()] = f
	p.byNum[f.Number()] = f
	}
	}
	})
	return p
	}

	type SourceLocations struct {
	List []pref.SourceLocation
	}

	func (p *SourceLocations) Len() int { return len(p.List) }
	func (p *SourceLocations) Get(i int) pref.SourceLocation { return p.List[i] }
	func (p *SourceLocations) ProtoInternal(pragma.DoNotImplement) {}