Documentation ¶
Overview ¶
Package number contains tools and data for formatting numbers.
Index ¶
- Constants
- type Converter
- type Decimal
- type Digits
- type Formatter
- func (f *Formatter) Append(dst []byte, x interface{}) []byte
- func (f *Formatter) Format(dst []byte, d *Decimal) []byte
- func (f *Formatter) InitDecimal(t language.Tag)
- func (f *Formatter) InitEngineering(t language.Tag)
- func (f *Formatter) InitPattern(t language.Tag, pat *Pattern)
- func (f *Formatter) InitPerMille(t language.Tag)
- func (f *Formatter) InitPercent(t language.Tag)
- func (f *Formatter) InitScientific(t language.Tag)
- func (f *Formatter) Render(dst []byte, d Digits) []byte
- type Info
- type Pattern
- type PatternFlag
- type RoundingContext
- type RoundingMode
- type SymbolType
- type VisibleDigits
Constants ¶
const ( AlwaysSign PatternFlag = 1 << iota ElideSign // Use space instead of plus sign. AlwaysSign must be true. AlwaysExpSign AlwaysDecimalSeparator ParenthesisForNegative // Common pattern. Saves space. PadAfterNumber PadAfterAffix PadBeforePrefix = 0 // Default PadAfterPrefix = PadAfterAffix PadBeforeSuffix = PadAfterNumber PadAfterSuffix = PadAfterNumber | PadAfterAffix PadMask = PadAfterNumber | PadAfterAffix )
const CLDRVersion = "31"
CLDRVersion is the CLDR version from which the tables in this package are derived.
Variables ¶
This section is empty.
Functions ¶
This section is empty.
Types ¶
type Converter ¶
type Converter interface {
Convert(d *Decimal, r RoundingContext)
}
A Converter converts a number into decimals according to the given rounding criteria.
type Decimal ¶
type Decimal struct {
// contains filtered or unexported fields
}
A Decimal represents a floating point number in decimal format. Digits represents a number [0, 1.0), and the absolute value represented by Decimal is Digits * 10^Exp. Leading and trailing zeros may be omitted and Exp may point outside a valid position in Digits.
Examples:
Number Decimal 12345 Digits: [1, 2, 3, 4, 5], Exp: 5 12.345 Digits: [1, 2, 3, 4, 5], Exp: 2 12000 Digits: [1, 2], Exp: 5 12000.00 Digits: [1, 2], Exp: 5 0.00123 Digits: [1, 2, 3], Exp: -2 0 Digits: [], Exp: 0
func (*Decimal) Convert ¶
func (d *Decimal) Convert(r RoundingContext, number interface{})
Convert converts the given number to the decimal representation using the supplied RoundingContext.
func (*Decimal) ConvertFloat ¶
func (d *Decimal) ConvertFloat(r RoundingContext, x float64, size int)
ConvertFloat converts a floating point number to decimals.
func (*Decimal) ConvertInt ¶
func (d *Decimal) ConvertInt(r RoundingContext, signed bool, x uint64)
ConvertInt converts an integer to decimals.
type Digits ¶
type Digits struct { // End indicates the end position of the number. End int32 // For decimals Exp <= End. For scientific len(Digits) <= End. // Comma is used for the comma position for scientific (always 0 or 1) and // engineering notation (always 0, 1, 2, or 3). Comma uint8 // IsScientific indicates whether this number is to be rendered as a // scientific number. IsScientific bool // contains filtered or unexported fields }
Digits represents a floating point number represented in digits of the base in which a number is to be displayed. It is similar to Decimal, but keeps track of trailing fraction zeros and the comma placement for engineering notation. Digits must have at least one digit.
Examples:
Number Decimal decimal 12345 Digits: [1, 2, 3, 4, 5], Exp: 5 End: 5 12.345 Digits: [1, 2, 3, 4, 5], Exp: 2 End: 5 12000 Digits: [1, 2], Exp: 5 End: 5 12000.00 Digits: [1, 2], Exp: 5 End: 7 0.00123 Digits: [1, 2, 3], Exp: -2 End: 3 0 Digits: [], Exp: 0 End: 1 scientific (actual exp is Exp - Comma) 0e0 Digits: [0], Exp: 1, End: 1, Comma: 1 .0e0 Digits: [0], Exp: 0, End: 1, Comma: 0 0.0e0 Digits: [0], Exp: 1, End: 2, Comma: 1 1.23e4 Digits: [1, 2, 3], Exp: 5, End: 3, Comma: 1 .123e5 Digits: [1, 2, 3], Exp: 5, End: 3, Comma: 0 engineering 12.3e3 Digits: [1, 2, 3], Exp: 5, End: 3, Comma: 2
func FormatDigits ¶
func FormatDigits(d *Decimal, r RoundingContext) Digits
type Formatter ¶
Formatter contains all the information needed to render a number.
func (*Formatter) InitDecimal ¶
InitDecimal initializes a Formatter using the default Pattern for the given language.
func (*Formatter) InitEngineering ¶
InitEngineering initializes a Formatter using the default Pattern for the given language.
func (*Formatter) InitPattern ¶
InitPattern initializes a Formatter for the given Pattern.
func (*Formatter) InitPerMille ¶
InitPerMille initializes a Formatter using the default Pattern for the given language.
func (*Formatter) InitPercent ¶
InitPercent initializes a Formatter using the default Pattern for the given language.
func (*Formatter) InitScientific ¶
InitScientific initializes a Formatter using the default Pattern for the given language.
type Info ¶
type Info struct {
// contains filtered or unexported fields
}
Info holds number formatting configuration data.
func InfoFromLangID ¶
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 InfoFromTag ¶
InfoFromTag returns a Info for the given language tag.
func (Info) AppendDigit ¶
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 (Info) Digit ¶
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 (Info) IsDecimal ¶
IsDecimal reports if the numbering system can convert decimal to native symbols one-to-one.
func (Info) Symbol ¶
func (n Info) Symbol(t SymbolType) string
Symbol returns the string for the given symbol type.
type Pattern ¶
type Pattern struct { RoundingContext Affix string // includes prefix and suffix. First byte is prefix length. Offset uint16 // Offset into Affix for prefix and suffix NegOffset uint16 // Offset into Affix for negative prefix and suffix or 0. PadRune rune FormatWidth uint16 GroupingSize [2]uint8 Flags PatternFlag }
Pattern holds information for formatting numbers. It is designed to hold information from CLDR number patterns.
This pattern is precompiled for all patterns for all languages. Even though the number of patterns is not very large, we want to keep this small.
This type is only intended for internal use.
func ParsePattern ¶
ParsePattern extracts formatting information from a CLDR number pattern.
See http://unicode.org/reports/tr35/tr35-numbers.html#Number_Format_Patterns.
type PatternFlag ¶
type PatternFlag uint8
A PatternFlag is a bit mask for the flag field of a Pattern.
type RoundingContext ¶
type RoundingContext struct { // TODO: unify these two fields so that there is a more unambiguous meaning // of how precision is handled. MaxSignificantDigits int16 // -1 is unlimited MaxFractionDigits int16 // -1 is unlimited Increment uint32 IncrementScale uint8 // May differ from printed scale. Mode RoundingMode DigitShift uint8 // Number of decimals to shift. Used for % and ‰. // Number of digits. MinIntegerDigits uint8 MaxIntegerDigits uint8 MinFractionDigits uint8 MinSignificantDigits uint8 MinExponentDigits uint8 }
A RoundingContext indicates how a number should be converted to digits. It contains all information needed to determine the "visible digits" as required by the pluralization rules.
func (*RoundingContext) RoundFractionDigits ¶
func (r *RoundingContext) RoundFractionDigits() (n int)
RoundFractionDigits returns the number of fraction digits an implementation of Convert may round to or n < 0 if there is no maximum or a maximum is not recommended.
func (*RoundingContext) RoundSignificantDigits ¶
func (r *RoundingContext) RoundSignificantDigits() (n int)
RoundSignificantDigits returns the number of significant digits an implementation of Convert may round to or n < 0 if there is no maximum or a maximum is not recommended.
func (*RoundingContext) SetPrecision ¶
func (r *RoundingContext) SetPrecision(prec int)
func (*RoundingContext) SetScale ¶
func (r *RoundingContext) SetScale(scale int)
SetScale fixes the RoundingContext to a fixed number of fraction digits.
type RoundingMode ¶
type RoundingMode byte
RoundingMode determines how a number is rounded to the desired precision.
const ( ToNearestEven RoundingMode = iota // towards the nearest integer, or towards an even number if equidistant. ToNearestZero // towards the nearest integer, or towards zero if equidistant. ToNearestAway // towards the nearest integer, or away from zero if equidistant. ToPositiveInf // towards infinity ToNegativeInf // towards negative infinity ToZero // towards zero AwayFromZero // away from zero )
func (RoundingMode) String ¶
func (i RoundingMode) String() string
type SymbolType ¶
type SymbolType int
A SymbolType identifies a symbol of a specific kind.
const ( SymDecimal SymbolType = iota SymGroup SymList SymPercentSign SymPlusSign SymMinusSign SymExponential SymSuperscriptingExponent SymPerMille SymInfinity SymNan SymTimeSeparator NumSymbolTypes )