package main import ( "fmt" "regexp" ) //Property defines one property of a segment for context type Property string //general Properties used across Segments const ( //Style indicates with style to use Style Property = "style" //Prefix adds a text prefix to the segment Prefix Property = "prefix" //Postfix adds a text postfix to the segment Postfix Property = "postfix" //ColorBackground color the background or foreground when a specific color is set ColorBackground Property = "color_background" //IgnoreFolders folders to ignore and not run the segment logic IgnoreFolders Property = "ignore_folders" //DisplayVersion show the version number or not DisplayVersion Property = "display_version" ) type properties struct { values map[Property]interface{} foreground string background string } func (p *properties) getString(property Property, defaultValue string) string { if p == nil || p.values == nil { return defaultValue } val, found := p.values[property] if !found { return defaultValue } return parseString(val, defaultValue) } func parseString(value interface{}, defaultValue string) string { stringValue, ok := value.(string) if !ok { return defaultValue } return stringValue } func (p *properties) getColor(property Property, defaultValue string) string { if p == nil || p.values == nil { return defaultValue } val, found := p.values[property] if !found { return defaultValue } colorString := parseString(val, defaultValue) r := regexp.MustCompile(`(?P#[A-Fa-f0-9]{6}|[A-Fa-f0-9]{3})`) match := r.FindStringSubmatch(colorString) if match != nil && match[0] != "" { return match[0] } return defaultValue } func (p *properties) getBool(property Property, defaultValue bool) bool { if p == nil || p.values == nil { return defaultValue } val, found := p.values[property] if !found { return defaultValue } boolValue, ok := val.(bool) if !ok { return defaultValue } return boolValue } func parseStringArray(value interface{}) []string { expectedValue, ok := value.([]interface{}) if !ok { return []string{} } list := make([]string, len(expectedValue)) for i, v := range expectedValue { list[i] = fmt.Sprint(v) } return list }