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path: root/vendor/github.com/robertkrimen/otto/value_number.go
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package otto

import (
    "fmt"
    "math"
    "regexp"
    "strconv"
    "strings"
)

var stringToNumberParseInteger = regexp.MustCompile(`^(?:0[xX])`)

func parseNumber(value string) float64 {
    value = strings.Trim(value, builtinString_trim_whitespace)

    if value == "" {
        return 0
    }

    parseFloat := false
    if strings.IndexRune(value, '.') != -1 {
        parseFloat = true
    } else if stringToNumberParseInteger.MatchString(value) {
        parseFloat = false
    } else {
        parseFloat = true
    }

    if parseFloat {
        number, err := strconv.ParseFloat(value, 64)
        if err != nil && err.(*strconv.NumError).Err != strconv.ErrRange {
            return math.NaN()
        }
        return number
    }

    number, err := strconv.ParseInt(value, 0, 64)
    if err != nil {
        return math.NaN()
    }
    return float64(number)
}

func (value Value) float64() float64 {
    switch value.kind {
    case valueUndefined:
        return math.NaN()
    case valueNull:
        return 0
    }
    switch value := value.value.(type) {
    case bool:
        if value {
            return 1
        }
        return 0
    case int:
        return float64(value)
    case int8:
        return float64(value)
    case int16:
        return float64(value)
    case int32:
        return float64(value)
    case int64:
        return float64(value)
    case uint:
        return float64(value)
    case uint8:
        return float64(value)
    case uint16:
        return float64(value)
    case uint32:
        return float64(value)
    case uint64:
        return float64(value)
    case float64:
        return value
    case string:
        return parseNumber(value)
    case *_object:
        return value.DefaultValue(defaultValueHintNumber).float64()
    }
    panic(fmt.Errorf("toFloat(%T)", value.value))
}

const (
    float_2_64   float64 = 18446744073709551616.0
    float_2_63   float64 = 9223372036854775808.0
    float_2_32   float64 = 4294967296.0
    float_2_31   float64 = 2147483648.0
    float_2_16   float64 = 65536.0
    integer_2_32 int64   = 4294967296
    integer_2_31 int64   = 2146483648
    sqrt1_2      float64 = math.Sqrt2 / 2
)

const (
    maxInt8   = math.MaxInt8
    minInt8   = math.MinInt8
    maxInt16  = math.MaxInt16
    minInt16  = math.MinInt16
    maxInt32  = math.MaxInt32
    minInt32  = math.MinInt32
    maxInt64  = math.MaxInt64
    minInt64  = math.MinInt64
    maxUint8  = math.MaxUint8
    maxUint16 = math.MaxUint16
    maxUint32 = math.MaxUint32
    maxUint64 = math.MaxUint64
    maxUint   = ^uint(0)
    minUint   = 0
    maxInt    = int(^uint(0) >> 1)
    minInt    = -maxInt - 1

    // int64
    int64_maxInt    int64 = int64(maxInt)
    int64_minInt    int64 = int64(minInt)
    int64_maxInt8   int64 = math.MaxInt8
    int64_minInt8   int64 = math.MinInt8
    int64_maxInt16  int64 = math.MaxInt16
    int64_minInt16  int64 = math.MinInt16
    int64_maxInt32  int64 = math.MaxInt32
    int64_minInt32  int64 = math.MinInt32
    int64_maxUint8  int64 = math.MaxUint8
    int64_maxUint16 int64 = math.MaxUint16
    int64_maxUint32 int64 = math.MaxUint32

    // float64
    float_maxInt    float64 = float64(int(^uint(0) >> 1))
    float_minInt    float64 = float64(int(-maxInt - 1))
    float_minUint   float64 = float64(0)
    float_maxUint   float64 = float64(uint(^uint(0)))
    float_minUint64 float64 = float64(0)
    float_maxUint64 float64 = math.MaxUint64
    float_maxInt64  float64 = math.MaxInt64
    float_minInt64  float64 = math.MinInt64
)

func toIntegerFloat(value Value) float64 {
    float := value.float64()
    if math.IsInf(float, 0) {
    } else if math.IsNaN(float) {
        float = 0
    } else if float > 0 {
        float = math.Floor(float)
    } else {
        float = math.Ceil(float)
    }
    return float
}

type _numberKind int

const (
    numberInteger  _numberKind = iota // 3.0 => 3.0
    numberFloat                       // 3.14159 => 3.0, 1+2**63 > 2**63-1
    numberInfinity                    // Infinity => 2**63-1
    numberNaN                         // NaN => 0
)

type _number struct {
    kind    _numberKind
    int64   int64
    float64 float64
}

// FIXME
// http://www.goinggo.net/2013/08/gustavos-ieee-754-brain-teaser.html
// http://bazaar.launchpad.net/~niemeyer/strepr/trunk/view/6/strepr.go#L160
func (value Value) number() (number _number) {
    switch value := value.value.(type) {
    case int8:
        number.int64 = int64(value)
        return
    case int16:
        number.int64 = int64(value)
        return
    case uint8:
        number.int64 = int64(value)
        return
    case uint16:
        number.int64 = int64(value)
        return
    case uint32:
        number.int64 = int64(value)
        return
    case int:
        number.int64 = int64(value)
        return
    case int64:
        number.int64 = value
        return
    }

    float := value.float64()
    if float == 0 {
        return
    }

    number.kind = numberFloat
    number.float64 = float

    if math.IsNaN(float) {
        number.kind = numberNaN
        return
    }

    if math.IsInf(float, 0) {
        number.kind = numberInfinity
    }

    if float >= float_maxInt64 {
        number.int64 = math.MaxInt64
        return
    }

    if float <= float_minInt64 {
        number.int64 = math.MinInt64
        return
    }

    integer := float64(0)
    if float > 0 {
        integer = math.Floor(float)
    } else {
        integer = math.Ceil(float)
    }

    if float == integer {
        number.kind = numberInteger
    }
    number.int64 = int64(float)
    return
}

// ECMA 262: 9.5
func toInt32(value Value) int32 {
    {
        switch value := value.value.(type) {
        case int8:
            return int32(value)
        case int16:
            return int32(value)
        case int32:
            return value
        }
    }
    floatValue := value.float64()
    if math.IsNaN(floatValue) || math.IsInf(floatValue, 0) {
        return 0
    }
    if floatValue == 0 { // This will work for +0 & -0
        return 0
    }
    remainder := math.Mod(floatValue, float_2_32)
    if remainder > 0 {
        remainder = math.Floor(remainder)
    } else {
        remainder = math.Ceil(remainder) + float_2_32
    }
    if remainder > float_2_31 {
        return int32(remainder - float_2_32)
    }
    return int32(remainder)
}

func toUint32(value Value) uint32 {
    {
        switch value := value.value.(type) {
        case int8:
            return uint32(value)
        case int16:
            return uint32(value)
        case uint8:
            return uint32(value)
        case uint16:
            return uint32(value)
        case uint32:
            return value
        }
    }
    floatValue := value.float64()
    if math.IsNaN(floatValue) || math.IsInf(floatValue, 0) {
        return 0
    }
    if floatValue == 0 {
        return 0
    }
    remainder := math.Mod(floatValue, float_2_32)
    if remainder > 0 {
        remainder = math.Floor(remainder)
    } else {
        remainder = math.Ceil(remainder) + float_2_32
    }
    return uint32(remainder)
}

func toUint16(value Value) uint16 {
    {
        switch value := value.value.(type) {
        case int8:
            return uint16(value)
        case uint8:
            return uint16(value)
        case uint16:
            return value
        }
    }
    floatValue := value.float64()
    if math.IsNaN(floatValue) || math.IsInf(floatValue, 0) {
        return 0
    }
    if floatValue == 0 {
        return 0
    }
    remainder := math.Mod(floatValue, float_2_16)
    if remainder > 0 {
        remainder = math.Floor(remainder)
    } else {
        remainder = math.Ceil(remainder) + float_2_16
    }
    return uint16(remainder)
}