mirror of
https://github.com/cwinfo/matterbridge.git
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144 lines
4.0 KiB
Go
144 lines
4.0 KiB
Go
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package main
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import (
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"encoding/xml"
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"fmt"
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"regexp"
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"strings"
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)
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// SupplementalData is the top level struct of plural.xml
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type SupplementalData struct {
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XMLName xml.Name `xml:"supplementalData"`
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PluralGroups []PluralGroup `xml:"plurals>pluralRules"`
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}
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// PluralGroup is a group of locales with the same plural rules.
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type PluralGroup struct {
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Locales string `xml:"locales,attr"`
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PluralRules []PluralRule `xml:"pluralRule"`
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}
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// Name returns a unique name for this plural group.
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func (pg *PluralGroup) Name() string {
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n := strings.Title(pg.Locales)
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return strings.Replace(n, " ", "", -1)
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}
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// SplitLocales returns all the locales in the PluralGroup as a slice.
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func (pg *PluralGroup) SplitLocales() []string {
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return strings.Split(pg.Locales, " ")
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}
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// PluralRule is the rule for a single plural form.
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type PluralRule struct {
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Count string `xml:"count,attr"`
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Rule string `xml:",innerxml"`
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}
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// CountTitle returns the title case of the PluralRule's count.
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func (pr *PluralRule) CountTitle() string {
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return strings.Title(pr.Count)
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}
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// Condition returns the condition where the PluralRule applies.
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func (pr *PluralRule) Condition() string {
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i := strings.Index(pr.Rule, "@")
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return pr.Rule[:i]
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}
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// Examples returns the integer and decimal exmaples for the PLuralRule.
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func (pr *PluralRule) Examples() (integer []string, decimal []string) {
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ex := strings.Replace(pr.Rule, ", …", "", -1)
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ddelim := "@decimal"
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if i := strings.Index(ex, ddelim); i > 0 {
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dex := strings.TrimSpace(ex[i+len(ddelim):])
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decimal = strings.Split(dex, ", ")
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ex = ex[:i]
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}
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idelim := "@integer"
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if i := strings.Index(ex, idelim); i > 0 {
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iex := strings.TrimSpace(ex[i+len(idelim):])
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integer = strings.Split(iex, ", ")
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}
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return integer, decimal
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}
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// IntegerExamples returns the integer exmaples for the PLuralRule.
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func (pr *PluralRule) IntegerExamples() []string {
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integer, _ := pr.Examples()
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return integer
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}
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// DecimalExamples returns the decimal exmaples for the PLuralRule.
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func (pr *PluralRule) DecimalExamples() []string {
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_, decimal := pr.Examples()
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return decimal
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}
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var relationRegexp = regexp.MustCompile("([niftvw])(?: % ([0-9]+))? (!=|=)(.*)")
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// GoCondition converts the XML condition to valid Go code.
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func (pr *PluralRule) GoCondition() string {
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var ors []string
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for _, and := range strings.Split(pr.Condition(), "or") {
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var ands []string
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for _, relation := range strings.Split(and, "and") {
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parts := relationRegexp.FindStringSubmatch(relation)
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if parts == nil {
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continue
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}
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lvar, lmod, op, rhs := strings.Title(parts[1]), parts[2], parts[3], strings.TrimSpace(parts[4])
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if op == "=" {
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op = "=="
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}
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lvar = "ops." + lvar
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var rhor []string
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var rany []string
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for _, rh := range strings.Split(rhs, ",") {
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if parts := strings.Split(rh, ".."); len(parts) == 2 {
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from, to := parts[0], parts[1]
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if lvar == "ops.N" {
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if lmod != "" {
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rhor = append(rhor, fmt.Sprintf("ops.NmodInRange(%s, %s, %s)", lmod, from, to))
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} else {
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rhor = append(rhor, fmt.Sprintf("ops.NinRange(%s, %s)", from, to))
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}
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} else if lmod != "" {
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rhor = append(rhor, fmt.Sprintf("intInRange(%s %% %s, %s, %s)", lvar, lmod, from, to))
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} else {
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rhor = append(rhor, fmt.Sprintf("intInRange(%s, %s, %s)", lvar, from, to))
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}
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} else {
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rany = append(rany, rh)
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}
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}
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if len(rany) > 0 {
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rh := strings.Join(rany, ",")
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if lvar == "ops.N" {
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if lmod != "" {
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rhor = append(rhor, fmt.Sprintf("ops.NmodEqualsAny(%s, %s)", lmod, rh))
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} else {
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rhor = append(rhor, fmt.Sprintf("ops.NequalsAny(%s)", rh))
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}
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} else if lmod != "" {
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rhor = append(rhor, fmt.Sprintf("intEqualsAny(%s %% %s, %s)", lvar, lmod, rh))
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} else {
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rhor = append(rhor, fmt.Sprintf("intEqualsAny(%s, %s)", lvar, rh))
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}
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}
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r := strings.Join(rhor, " || ")
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if len(rhor) > 1 {
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r = "(" + r + ")"
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}
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if op == "!=" {
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r = "!" + r
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}
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ands = append(ands, r)
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}
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ors = append(ors, strings.Join(ands, " && "))
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}
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return strings.Join(ors, " ||\n")
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}
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