mirror of
https://github.com/cwinfo/matterbridge.git
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204 lines
6.3 KiB
Go
204 lines
6.3 KiB
Go
package plural
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import (
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"fmt"
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"strings"
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)
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// Case is the inner element of this API and describes one case. When the number to be described
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// matches the number here, the corresponding format string will be used. If the format string
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// includes '%', then fmt.Sprintf will be used. Otherwise the format string will be returned verbatim.
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type Case struct {
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Number int
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Format string
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}
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// Plurals provides a list of plural cases in the order they will be searched.
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// For plurals of continuous ranges (e.g. weight), the cases must be in ascending number order.
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// For plurals of discrete ranges (i.e. integers), the cases can be in any order you require,
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// but will conventionally be in ascending number order.
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// If no match is found, the last case will be used.
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type Plurals []Case
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// Format searches through the plural cases for the first match. If none is found, the last
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// case is used. The value passed in can be any number type, or pointer to a number type, except
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// complex numbers are not supported. The value will be converted to an int in order to
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// find the first case that matches.
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// The only possible error arises if value has a type that is not numeric.
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// It panics if 'plurals' is empty.
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func (plurals Plurals) Format(value interface{}) (string, error) {
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switch x := value.(type) {
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case int:
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return plurals.FormatInt(x), nil
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case int8:
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return plurals.FormatInt(int(x)), nil
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case int16:
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return plurals.FormatInt(int(x)), nil
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case int32:
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return plurals.FormatInt(int(x)), nil
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case int64:
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return plurals.FormatInt(int(x)), nil
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case uint8:
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return plurals.FormatInt(int(x)), nil
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case uint16:
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return plurals.FormatInt(int(x)), nil
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case uint32:
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return plurals.FormatInt(int(x)), nil
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case uint64:
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return plurals.FormatInt(int(x)), nil
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case float32:
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return plurals.FormatFloat(x), nil
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case float64:
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return plurals.FormatFloat(float32(x)), nil
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case *int:
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return plurals.FormatInt(*x), nil
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case *int8:
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return plurals.FormatInt(int(*x)), nil
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case *int16:
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return plurals.FormatInt(int(*x)), nil
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case *int32:
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return plurals.FormatInt(int(*x)), nil
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case *int64:
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return plurals.FormatInt(int(*x)), nil
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case *uint:
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return plurals.FormatInt(int(*x)), nil
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case *uint8:
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return plurals.FormatInt(int(*x)), nil
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case *uint16:
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return plurals.FormatInt(int(*x)), nil
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case *uint32:
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return plurals.FormatInt(int(*x)), nil
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case *uint64:
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return plurals.FormatInt(int(*x)), nil
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case *float32:
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return plurals.FormatFloat(*x), nil
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case *float64:
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return plurals.FormatFloat(float32(*x)), nil
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case nil:
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return "", fmt.Errorf("Unexpected nil value for %s", plurals)
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default:
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return "", fmt.Errorf("Unexpected type %T for %v", x, value)
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}
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}
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// FormatInt expresses an int in plural form. It panics if 'plurals' is empty.
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func (plurals Plurals) FormatInt(value int) string {
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for _, c := range plurals {
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if value == c.Number {
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return c.FormatInt(value)
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}
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}
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c := plurals[len(plurals)-1]
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return c.FormatInt(value)
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}
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// FormatFloat expresses a float32 in plural form. It panics if 'plurals' is empty.
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func (plurals Plurals) FormatFloat(value float32) string {
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for _, c := range plurals {
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if value <= float32(c.Number) {
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return c.FormatFloat(value)
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}
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}
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c := plurals[len(plurals)-1]
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return c.FormatFloat(value)
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}
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// FormatInt renders a specific case with a given value.
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func (c Case) FormatInt(value int) string {
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if strings.IndexByte(c.Format, '%') < 0 {
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return c.Format
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}
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return fmt.Sprintf(c.Format, value)
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}
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// FormatFloat renders a specific case with a given value.
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func (c Case) FormatFloat(value float32) string {
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if strings.IndexByte(c.Format, '%') < 0 {
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return c.Format
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}
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return fmt.Sprintf(c.Format, value)
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}
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//-------------------------------------------------------------------------------------------------
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// String implements io.Stringer.
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func (plurals Plurals) String() string {
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ss := make([]string, 0, len(plurals))
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for _, c := range plurals {
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ss = append(ss, c.String())
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}
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return fmt.Sprintf("Plurals(%s)", strings.Join(ss, ", "))
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}
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// String implements io.Stringer.
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func (c Case) String() string {
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return fmt.Sprintf("{%v -> %q}", c.Number, c.Format)
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}
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//-------------------------------------------------------------------------------------------------
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// ByOrdinal constructs a simple set of cases using small ordinals (0, 1, 2, 3 etc), which is a
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// common requirement. It is an alias for FromZero.
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func ByOrdinal(zeroth string, rest ...string) Plurals {
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return FromZero(zeroth, rest...)
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}
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// FromZero constructs a simple set of cases using small ordinals (0, 1, 2, 3 etc), which is a
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// common requirement. It prevents creation of a Plurals list that is empty, which would be invalid.
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//
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// The 'zeroth' string becomes Case{0, first}. The rest are appended similarly. Notice that the
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// counting starts from zero.
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//
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// So
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//
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// FromZero("nothing", "%v thing", "%v things")
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//
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// is simply a shorthand for
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//
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// Plurals{Case{0, "nothing"}, Case{1, "%v thing"}, Case{2, "%v things"}}
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//
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// which would also be valid but a little more verbose.
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//
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// This helper function is less flexible than constructing Plurals directly, but covers many common
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// situations.
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func FromZero(zeroth string, rest ...string) Plurals {
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p := make(Plurals, 0, len(rest)+1)
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p = append(p, Case{0, zeroth})
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for i, c := range rest {
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p = append(p, Case{i+1, c})
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}
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return p
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}
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// FromOne constructs a simple set of cases using small positive numbers (1, 2, 3 etc), which is a
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// common requirement. It prevents creation of a Plurals list that is empty, which would be invalid.
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//
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// The 'first' string becomes Case{1, first}. The rest are appended similarly. Notice that the
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// counting starts from one.
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//
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// So
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//
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// FromOne("%v thing", "%v things")
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//
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// is simply a shorthand for
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//
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// Plurals{Case{1, "%v thing"}, Case{2, "%v things"}}
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//
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// which would also be valid but a little more verbose.
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//
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// Note the behaviour of formatting when the count is zero. As a consequence of Format evaluating
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// the cases in order, FromOne(...).FormatInt(0) will pick the last case you provide, not the first.
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//
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// This helper function is less flexible than constructing Plurals directly, but covers many common
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// situations.
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func FromOne(first string, rest ...string) Plurals {
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p := make(Plurals, 0, len(rest)+1)
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p = append(p, Case{1, first})
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for i, c := range rest {
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p = append(p, Case{i+2, c})
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}
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return p
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}
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