Exemple #1
0
func ratmod(x, y *big.Rat) *big.Rat {
	if x.IsInt() && y.IsInt() {
		return new(big.Rat).SetInt(new(big.Int).Mod(x.Num(), y.Num()))
	}

	panic("operation not permitted")
}
Exemple #2
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// coinUnits converts a siacoin amount to base units.
func coinUnits(amount string) (string, error) {
	units := []string{"pS", "nS", "uS", "mS", "SC", "KS", "MS", "GS", "TS"}
	for i, unit := range units {
		if strings.HasSuffix(amount, unit) {
			// scan into big.Rat
			r, ok := new(big.Rat).SetString(strings.TrimSuffix(amount, unit))
			if !ok {
				return "", errors.New("malformed amount")
			}
			// convert units
			exp := 24 + 3*(int64(i)-4)
			mag := new(big.Int).Exp(big.NewInt(10), big.NewInt(exp), nil)
			r.Mul(r, new(big.Rat).SetInt(mag))
			// r must be an integer at this point
			if !r.IsInt() {
				return "", errors.New("non-integer number of hastings")
			}
			return r.RatString(), nil
		}
	}
	// check for hastings separately
	if strings.HasSuffix(amount, "H") {
		return strings.TrimSuffix(amount, "H"), nil
	}

	return "", errors.New("amount is missing units; run 'wallet --help' for a list of units")
}
Exemple #3
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// parseFilesize converts strings of form 10GB to a size in bytes. Fractional
// sizes are truncated at the byte size.
func parseFilesize(strSize string) (string, error) {
	units := []struct {
		suffix     string
		multiplier int64
	}{
		{"kb", 1e3},
		{"mb", 1e6},
		{"gb", 1e9},
		{"tb", 1e12},
		{"kib", 1 << 10},
		{"mib", 1 << 20},
		{"gib", 1 << 30},
		{"tib", 1 << 40},
		{"b", 1}, // must be after others else it'll match on them all
		{"", 1},  // no suffix is still a valid suffix
	}

	strSize = strings.ToLower(strSize)
	for _, unit := range units {
		if strings.HasSuffix(strSize, unit.suffix) {
			r, ok := new(big.Rat).SetString(strings.TrimSuffix(strSize, unit.suffix))
			if !ok {
				return "", errUnableToParseSize
			}
			r.Mul(r, new(big.Rat).SetInt(big.NewInt(unit.multiplier)))
			if !r.IsInt() {
				f, _ := r.Float64()
				return fmt.Sprintf("%d", int64(f)), nil
			}
			return r.RatString(), nil
		}
	}

	return "", errUnableToParseSize
}
Exemple #4
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// Returns the parsed duration in nanoseconds, support 'u', 's', 'm',
// 'h', 'd', 'W', 'M', and 'Y' suffixes.
func ParseTimeDuration(value string) (int64, error) {
	var constant time.Duration

	prefixSize := 1

	switch value[len(value)-1] {
	case 'u':
		constant = time.Microsecond
	case 's':
		constant = time.Second
	case 'm':
		constant = time.Minute
	case 'h':
		constant = time.Hour
	case 'd':
		constant = 24 * time.Hour
	case 'w', 'W':
		constant = Week
	case 'M':
		constant = Month
	case 'y', 'Y':
		constant = Year
	default:
		prefixSize = 0
	}

	if value[len(value)-2:] == "ms" {
		constant = time.Millisecond
		prefixSize = 2
	}

	t := big.Rat{}
	timeString := value
	if prefixSize > 0 {
		timeString = value[:len(value)-prefixSize]
	}

	_, err := fmt.Sscan(timeString, &t)
	if err != nil {
		return 0, err
	}

	if prefixSize > 0 {
		c := big.Rat{}
		c.SetFrac64(int64(constant), 1)
		t.Mul(&t, &c)
	}

	if t.IsInt() {
		return t.Num().Int64(), nil
	}
	f, _ := t.Float64()
	return int64(f), nil
}
Exemple #5
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func NewRational(r *big.Rat) Rational {
	if !r.IsInt() || r.Cmp(min) < 0 || r.Cmp(max) > 0 {
		return Rational{r}
	}

	n := r.Num().Int64()
	i := n + 256
	p := rat[i]

	if p.v == nil {
		p = Rational{r}
		rat[i] = p
	}

	return p
}
Exemple #6
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func parseResourceCPU(flags *pflag.FlagSet, resources *api.Resources, name string) error {
	cpu, err := flags.GetString(name)
	if err != nil {
		return err
	}

	nanoCPUs, ok := new(big.Rat).SetString(cpu)
	if !ok {
		return fmt.Errorf("invalid cpu: %s", cpu)
	}
	cpuRat := new(big.Rat).Mul(nanoCPUs, big.NewRat(1e9, 1))
	if !cpuRat.IsInt() {
		return fmt.Errorf("CPU value cannot have more than 9 decimal places: %s", cpu)
	}
	resources.NanoCPUs = cpuRat.Num().Int64()
	return nil
}
Exemple #7
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// Returns the parsed duration in nanoseconds, support 'u', 's', 'm',
// 'h', 'd' and 'w' suffixes.
func ParseTimeDuration(value string) (int64, error) {
	var constant time.Duration
	hasPrefix := true

	switch value[len(value)-1] {
	case 'u':
		constant = time.Microsecond
	case 's':
		constant = time.Second
	case 'm':
		constant = time.Minute
	case 'h':
		constant = time.Hour
	case 'd':
		constant = 24 * time.Hour
	case 'w':
		constant = 7 * 24 * time.Hour
	case 'y':
		constant = 365 * 24 * time.Hour
	default:
		hasPrefix = false
	}

	t := big.Rat{}
	timeString := value
	if hasPrefix {
		timeString = value[:len(value)-1]
	}

	_, err := fmt.Sscan(timeString, &t)
	if err != nil {
		return 0, err
	}

	if hasPrefix {
		c := big.Rat{}
		c.SetFrac64(int64(constant), 1)
		t.Mul(&t, &c)
	}
	if t.IsInt() {
		return t.Num().Int64(), nil
	}
	f, _ := t.Float64()
	return int64(f), nil
}
Exemple #8
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func NewRational(r *big.Rat) *Rational {
	if !r.IsInt() || r.Cmp(min) < 0 || r.Cmp(max) > 0 {
		return (*Rational)(r)
	}

	n := r.Num().Int64()
	i := n + 256

	ratl.RLock()
	p := rat[i]
	ratl.RUnlock()

	if p == nil {
		p = (*Rational)(r)

		ratl.Lock()
		rat[i] = p
		ratl.Unlock()
	}

	return p
}
Exemple #9
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// normalizeRatConst returns the smallest constant representation
// for the specific value of x; either an int64, *big.Int value,
// or *big.Rat value.
//
func normalizeRatConst(x *big.Rat) interface{} {
	if x.IsInt() {
		return normalizeIntConst(x.Num())
	}
	return x
}
Exemple #10
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func normFloat(x *big.Rat) Value {
	if x.IsInt() {
		return normInt(x.Num())
	}
	return floatVal{x}
}
Exemple #11
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func num(x *big.Rat) string {
	if x.IsInt() {
		return x.Num().String()
	}
	return x.String()
}