internal/number/number.go - text - Git at Google

 // Copyright 2016 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.

 //go:generate go run gen.go gen_common.go

 // Package number contains tools and data for formatting numbers.
 package number

 import (
 	"unicode/utf8"

 	"golang.org/x/text/internal"
 	"golang.org/x/text/language"
 )

 // Info holds number formatting configuration data.
 type Info struct {
 	system   systemData // numbering system information
 	symIndex byte       // index to symbols
 }

 // InfoFromLangID returns a Info for the given compact language identifier and
 // numbering system identifier. If system is the empty string, the default
 // numbering system will be taken for that language.
 func InfoFromLangID(compactIndex int, numberSystem string) Info {
 	p := langToDefaults[compactIndex]
 	// Lookup the entry for the language.
 	pSymIndex := byte(0) // Default: Latin, default symbols
 	system, ok := systemMap[numberSystem]
 	if !ok {
 		// Take the value for the default numbering system. This is by far the
 		// most common case as an alternative numbering system is hardly used.
 		if p&0x80 == 0 {
 			pSymIndex = p
 		} else {
 			// Take the first entry from the alternatives list.
 			data := langToAlt[p&^0x80]
 			pSymIndex = data.symIndex
 			system = data.system
 		}
 	} else {
 		langIndex := compactIndex
 		ns := system
 	outerLoop:
 		for {
 			if p&0x80 == 0 {
 				if ns == 0 {
 					// The index directly points to the symbol data.
 					pSymIndex = p
 					break
 				}
 				// Move to the parent and retry.
 				langIndex = int(internal.Parent[langIndex])
 			}
 			// The index points to a list of symbol data indexes.
 			for _, e := range langToAlt[p&^0x80:] {
 				if int(e.compactTag) != langIndex {
 					if langIndex == 0 {
 						// The CLDR root defines full symbol information for all
 						// numbering systems (even though mostly by means of
 						// aliases). This means that we will never fall back to
 						// the default of the language. Also, the loop is
 						// guaranteed to terminate as a consequence.
 						ns = numLatn
 						// Fall back to Latin and start from the original
 						// language. See
 						// http://unicode.org/reports/tr35/#Locale_Inheritance.
 						langIndex = compactIndex
 					} else {
 						// Fall back to parent.
 						langIndex = int(internal.Parent[langIndex])
 					}
 					break
 				}
 				if e.system == ns {
 					pSymIndex = e.symIndex
 					break outerLoop
 				}
 			}
 		}
 	}
 	if int(system) >= len(numSysData) { // algorithmic
 		// Will generate ASCII digits in case the user inadvertently calls
 		// WriteDigit or Digit on it.
 		d := numSysData[0]
 		d.id = system
 		return Info{
 			system:   d,
 			symIndex: pSymIndex,
 		}
 	}
 	return Info{
 		system:   numSysData[system],
 		symIndex: pSymIndex,
 	}
 }

 // InfoFromTag returns a Info for the given language tag.
 func InfoFromTag(t language.Tag) Info {
 	for {
 		if index, ok := language.CompactIndex(t); ok {
 			return InfoFromLangID(index, t.TypeForKey("nu"))
 		}
 		t = t.Parent()
 	}
 }

 // IsDecimal reports if the numbering system can convert decimal to native
 // symbols one-to-one.
 func (n Info) IsDecimal() bool {
 	return int(n.system.id) < len(numSysData)
 }

 // WriteDigit writes the UTF-8 sequence for n corresponding to the given ASCII
 // digit to dst and reports the number of bytes written. dst must be large
 // enough to hold the rune (can be up to utf8.UTFMax bytes).
 func (n Info) WriteDigit(dst []byte, asciiDigit rune) int {
 	copy(dst, n.system.zero[:n.system.digitSize])
 	dst[n.system.digitSize-1] += byte(asciiDigit - '0')
 	return int(n.system.digitSize)
 }

 // AppendDigit appends the UTF-8 sequence for n corresponding to the given digit
 // to dst and reports the number of bytes written. dst must be large enough to
 // hold the rune (can be up to utf8.UTFMax bytes).
 func (n Info) AppendDigit(dst []byte, digit byte) []byte {
 	dst = append(dst, n.system.zero[:n.system.digitSize]...)
 	dst[len(dst)-1] += digit
 	return dst
 }

 // Digit returns the digit for the numbering system for the corresponding ASCII
 // value. For example, ni.Digit('3') could return '三'. Note that the argument
 // is the rune constant '3', which equals 51, not the integer constant 3.
 func (n Info) Digit(asciiDigit rune) rune {
 	var x [utf8.UTFMax]byte
 	n.WriteDigit(x[:], asciiDigit)
 	r, _ := utf8.DecodeRune(x[:])
 	return r
 }

 // Symbol returns the string for the given symbol type.
 func (n Info) Symbol(t SymbolType) string {
 	return symData.Elem(int(symIndex[n.symIndex][t]))
 }

 func formatForLang(t language.Tag, index []byte) *Pattern {
 	for ; ; t = t.Parent() {
 		if x, ok := language.CompactIndex(t); ok {
 			return &formats[index[x]]
 		}
 	}
 }
	// Copyright 2016 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.

	//go:generate go run gen.go gen_common.go

	// Package number contains tools and data for formatting numbers.
	package number

	import (
	"unicode/utf8"

	"golang.org/x/text/internal"
	"golang.org/x/text/language"
	)

	// Info holds number formatting configuration data.
	type Info struct {
	system systemData // numbering system information
	symIndex byte // index to symbols
	}

	// InfoFromLangID returns a Info for the given compact language identifier and
	// numbering system identifier. If system is the empty string, the default
	// numbering system will be taken for that language.
	func InfoFromLangID(compactIndex int, numberSystem string) Info {
	p := langToDefaults[compactIndex]
	// Lookup the entry for the language.
	pSymIndex := byte(0) // Default: Latin, default symbols
	system, ok := systemMap[numberSystem]
	if !ok {
	// Take the value for the default numbering system. This is by far the
	// most common case as an alternative numbering system is hardly used.
	if p&0x80 == 0 {
	pSymIndex = p
	} else {
	// Take the first entry from the alternatives list.
	data := langToAlt[p&^0x80]
	pSymIndex = data.symIndex
	system = data.system
	}
	} else {
	langIndex := compactIndex
	ns := system
	outerLoop:
	for {
	if p&0x80 == 0 {
	if ns == 0 {
	// The index directly points to the symbol data.
	pSymIndex = p
	break
	}
	// Move to the parent and retry.
	langIndex = int(internal.Parent[langIndex])
	}
	// The index points to a list of symbol data indexes.
	for _, e := range langToAlt[p&^0x80:] {
	if int(e.compactTag) != langIndex {
	if langIndex == 0 {
	// The CLDR root defines full symbol information for all
	// numbering systems (even though mostly by means of
	// aliases). This means that we will never fall back to
	// the default of the language. Also, the loop is
	// guaranteed to terminate as a consequence.
	ns = numLatn
	// Fall back to Latin and start from the original
	// language. See
	// http://unicode.org/reports/tr35/#Locale_Inheritance.
	langIndex = compactIndex
	} else {
	// Fall back to parent.
	langIndex = int(internal.Parent[langIndex])
	}
	break
	}
	if e.system == ns {
	pSymIndex = e.symIndex
	break outerLoop
	}
	}
	}
	}
	if int(system) >= len(numSysData) { // algorithmic
	// Will generate ASCII digits in case the user inadvertently calls
	// WriteDigit or Digit on it.
	d := numSysData[0]
	d.id = system
	return Info{
	system: d,
	symIndex: pSymIndex,
	}
	}
	return Info{
	system: numSysData[system],
	symIndex: pSymIndex,
	}
	}

	// InfoFromTag returns a Info for the given language tag.
	func InfoFromTag(t language.Tag) Info {
	for {
	if index, ok := language.CompactIndex(t); ok {
	return InfoFromLangID(index, t.TypeForKey("nu"))
	}
	t = t.Parent()
	}
	}

	// IsDecimal reports if the numbering system can convert decimal to native
	// symbols one-to-one.
	func (n Info) IsDecimal() bool {
	return int(n.system.id) < len(numSysData)
	}

	// WriteDigit writes the UTF-8 sequence for n corresponding to the given ASCII
	// digit to dst and reports the number of bytes written. dst must be large
	// enough to hold the rune (can be up to utf8.UTFMax bytes).
	func (n Info) WriteDigit(dst []byte, asciiDigit rune) int {
	copy(dst, n.system.zero[:n.system.digitSize])
	dst[n.system.digitSize-1] += byte(asciiDigit - '0')
	return int(n.system.digitSize)
	}

	// AppendDigit appends the UTF-8 sequence for n corresponding to the given digit
	// to dst and reports the number of bytes written. dst must be large enough to
	// hold the rune (can be up to utf8.UTFMax bytes).
	func (n Info) AppendDigit(dst []byte, digit byte) []byte {
	dst = append(dst, n.system.zero[:n.system.digitSize]...)
	dst[len(dst)-1] += digit
	return dst
	}

	// Digit returns the digit for the numbering system for the corresponding ASCII
	// value. For example, ni.Digit('3') could return '三'. Note that the argument
	// is the rune constant '3', which equals 51, not the integer constant 3.
	func (n Info) Digit(asciiDigit rune) rune {
	var x [utf8.UTFMax]byte
	n.WriteDigit(x[:], asciiDigit)
	r, _ := utf8.DecodeRune(x[:])
	return r
	}

	// Symbol returns the string for the given symbol type.
	func (n Info) Symbol(t SymbolType) string {
	return symData.Elem(int(symIndex[n.symIndex][t]))
	}

	func formatForLang(t language.Tag, index []byte) *Pattern {
	for ; ; t = t.Parent() {
	if x, ok := language.CompactIndex(t); ok {
	return &formats[index[x]]
	}
	}
	}