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Add documentation
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@ -22,6 +22,7 @@ const (
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Events
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)
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// String returns the long string for the measure like 'Percent' or 'Seconds'
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func (m *Measure) String() string {
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switch *m {
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case Bytes:
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@ -59,6 +60,7 @@ func (m *Measure) String() string {
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}
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}
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// Short returns the short string for the measure like 'B' (Bytes), 's' (Time) or 'W' (Watt). Is is recommened to use Short() over String().
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func (m *Measure) Short() string {
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switch *m {
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case Bytes:
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@ -126,6 +128,8 @@ var requestsRegex = regexp.MustCompile(requestsRegexStr)
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var packetsRegex = regexp.MustCompile(packetsRegexStr)
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var eventsRegex = regexp.MustCompile(eventsRegexStr)
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// NewMeasure creates a new measure out of a string representing a measure like 'Bytes', 'Flops' and 'precent'.
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// It uses regular expressions for matching.
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func NewMeasure(unit string) Measure {
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var match []string
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match = bytesRegex.FindStringSubmatch(unit)
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@ -31,6 +31,7 @@ const prefixRegexStr = `^([kKmMgGtTpP]?[i]?)(.*)`
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var prefixRegex = regexp.MustCompile(prefixRegexStr)
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// String returns the long string for the prefix like 'Kilo' or 'Mega'
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func (s *Prefix) String() string {
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switch *s {
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case InvalidPrefix:
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@ -72,6 +73,7 @@ func (s *Prefix) String() string {
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}
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}
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// Prefix returns the short string for the prefix like 'K', 'M' or 'G'. Is is recommened to use Prefix() over String().
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func (s *Prefix) Prefix() string {
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switch *s {
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case InvalidPrefix:
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@ -113,6 +115,7 @@ func (s *Prefix) Prefix() string {
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}
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}
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// NewPrefix creates a new prefix out of a string representing a unit like 'k', 'K', 'M' or 'G'.
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func NewPrefix(prefix string) Prefix {
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switch prefix {
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case "k":
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33
ccUnits.go
33
ccUnits.go
@ -24,12 +24,12 @@ type Unit interface {
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var INVALID_UNIT = NewUnit("foobar")
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// Check whether a unit is a valid unit. It requires at least a prefix and a measure. The unit denominator is optional
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// Valid checks whether a unit is a valid unit. A unit is valid if it has at least a prefix and a measure. The unit denominator is optional.
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func (u *unit) Valid() bool {
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return u.prefix != InvalidPrefix && u.measure != InvalidMeasure
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}
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// Get the long string for the unit like 'KiloHertz'
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// String returns the long string for the unit like 'KiloHertz' or 'MegaBytes'
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func (u *unit) String() string {
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if u.divMeasure != InvalidMeasure {
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return fmt.Sprintf("%s%s/%s", u.prefix.String(), u.measure.String(), u.divMeasure.String())
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@ -38,7 +38,7 @@ func (u *unit) String() string {
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}
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}
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// Get the short string for the unit like 'KHz' (recommened over String()!)
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// Short returns the short string for the unit like 'kHz' or 'MByte'. Is is recommened to use Short() over String().
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func (u *unit) Short() string {
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if u.divMeasure != InvalidMeasure {
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return fmt.Sprintf("%s%s/%s", u.prefix.Prefix(), u.measure.Short(), u.divMeasure.Short())
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@ -47,7 +47,9 @@ func (u *unit) Short() string {
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}
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}
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//
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// AddUnitDenominator adds a unit denominator to an exising unit. Can be used if you want to derive e.g. data volume to bandwidths.
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// The data volume is in a Byte unit like 'kByte' and by dividing it by the runtime in seconds, we get the bandwidth. We can use the
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// data volume unit and add 'Second' as unit denominator
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func (u *unit) AddUnitDenominator(div Measure) {
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u.divMeasure = div
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}
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@ -68,7 +70,8 @@ func (u *unit) getUnitDenominator() Measure {
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return u.divMeasure
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}
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// This creates the default conversion function between two prefixes
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// GetPrefixPrefixFactor creates the default conversion function between two prefixes.
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// It returns a conversation function for the value.
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func GetPrefixPrefixFactor(in Prefix, out Prefix) func(value interface{}) interface{} {
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var factor = 1.0
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var in_prefix = float64(in)
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@ -144,14 +147,17 @@ func convertTempF2TempC(value interface{}) interface{} {
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return value
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}
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// If we only have strings with the prefixes, this is a handy wrapper
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// GetPrefixStringPrefixStringFactor is a wrapper for GetPrefixPrefixFactor with string inputs instead
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// of prefixes. It also returns a conversation function for the value.
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func GetPrefixStringPrefixStringFactor(in string, out string) func(value interface{}) interface{} {
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var i Prefix = NewPrefix(in)
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var o Prefix = NewPrefix(out)
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return GetPrefixPrefixFactor(i, o)
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}
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// Get the conversion function and resulting unit for a unit and a prefix
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// GetUnitPrefixFactor gets the conversion function and resulting unit for a unit and a prefix. This is
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// the most common case where you have some input unit and want to convert it to the same unit but with
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// a different prefix. The returned unit represents the value after conversation.
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func GetUnitPrefixFactor(in Unit, out Prefix) (func(value interface{}) interface{}, Unit) {
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outUnit := NewUnit(in.Short())
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if outUnit.Valid() {
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@ -162,19 +168,23 @@ func GetUnitPrefixFactor(in Unit, out Prefix) (func(value interface{}) interface
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return nil, INVALID_UNIT
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}
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// Get the conversion function and resulting unit for a unit and a prefix as string
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// GetUnitPrefixStringFactor gets the conversion function and resulting unit for a unit and a prefix as string.
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// It is a wrapper for GetUnitPrefixFactor
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func GetUnitPrefixStringFactor(in Unit, out string) (func(value interface{}) interface{}, Unit) {
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var o Prefix = NewPrefix(out)
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return GetUnitPrefixFactor(in, o)
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}
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// Get the conversion function and resulting unit for a unit and a prefix when both are only string representations
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// GetUnitStringPrefixStringFactor gets the conversion function and resulting unit for a unit and a prefix when both are only string representations.
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// This is just a wrapper for GetUnitPrefixFactor with the given input unit and the desired output prefix.
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func GetUnitStringPrefixStringFactor(in string, out string) (func(value interface{}) interface{}, Unit) {
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var i = NewUnit(in)
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return GetUnitPrefixStringFactor(i, out)
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}
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// Get the conversion function and (maybe) error for unit to unit conversion
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// GetUnitUnitFactor gets the conversion function and (maybe) error for unit to unit conversion.
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// It is basically a wrapper for GetPrefixPrefixFactor with some special cases for temperature
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// conversion between Fahrenheit and Celsius.
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func GetUnitUnitFactor(in Unit, out Unit) (func(value interface{}) interface{}, error) {
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if in.getMeasure() == TemperatureC && out.getMeasure() == TemperatureF {
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return convertTempC2TempF, nil
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@ -186,7 +196,8 @@ func GetUnitUnitFactor(in Unit, out Unit) (func(value interface{}) interface{},
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return GetPrefixPrefixFactor(in.getPrefix(), out.getPrefix()), nil
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}
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// Create a new unit out of a string representing a unit like 'Mbyte/s' or 'GHz'.
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// NewUnit creates a new unit out of a string representing a unit like 'Mbyte/s' or 'GHz'.
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// It uses regular expressions to detect the prefix, unit and (maybe) unit denominator.
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func NewUnit(unitStr string) Unit {
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u := &unit{
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prefix: InvalidPrefix,
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