package strings import ( "context" "regexp" "github.com/MontFerret/ferret/pkg/runtime/core" "github.com/MontFerret/ferret/pkg/runtime/values" ) // RegexMatch returns the matches in the given string text, using the regex. // @param text (String) - The string to search in. // @param regex (String) - A regular expression to use for matching the text. // @param caseInsensitive (Boolean) - If set to true, the matching will be case-insensitive. The default is false. // @return (Array) - An array of strings containing the matches. func RegexMatch(_ context.Context, args ...core.Value) (core.Value, error) { err := core.ValidateArgs(args, 2, 3) if err != nil { return values.None, err } text := args[0].String() exp := args[1].String() if len(args) > 2 { if args[2] == values.True { exp = "(?i)" + exp } } reg, err := regexp.Compile(exp) if err != nil { return values.None, err } matches := reg.FindAllStringSubmatch(text, -1) res := values.NewArray(10) if len(matches) == 0 { return res, nil } for _, m := range matches[0] { res.Push(values.NewString(m)) } return res, nil } // RegexSplit splits the given string text into a list of strings, using the separator. // @param text (String) - The string to split. // @param regex (String) - A regular expression to use for splitting the text. // @param caseInsensitive (Boolean) - If set to true, the matching will be case-insensitive. The default is false. // @param limit (Int) - Limit the number of split values in the result. If no limit is given, the number of splits returned is not bounded. // @return (Array) - An array of strings splited by teh expression. func RegexSplit(_ context.Context, args ...core.Value) (core.Value, error) { err := core.ValidateArgs(args, 2, 4) if err != nil { return values.None, err } text := args[0].String() exp := args[1].String() limit := -1 if len(args) > 2 { if args[2].Type() == core.IntType { limit = int(args[2].(values.Int)) } } reg, err := regexp.Compile(exp) if err != nil { return values.None, err } matches := reg.Split(text, limit) res := values.NewArray(10) if len(matches) == 0 { return res, nil } for _, m := range matches { res.Push(values.NewString(m)) } return res, nil } // RegexTest test wether the regexp has at least one match in the given text. // @param text (String) - The string to split. // @param regex (String) - A regular expression to use for splitting the text. // @param caseInsensitive (Boolean) - If set to true, the matching will be case-insensitive. The default is false. // @return (Boolean) - Returns true if the pattern is contained in text, and false otherwise. func RegexTest(_ context.Context, args ...core.Value) (core.Value, error) { err := core.ValidateArgs(args, 2, 3) if err != nil { return values.None, err } text := args[0].String() exp := args[1].String() if len(args) > 2 { if args[2] == values.True { exp = "(?i)" + exp } } reg, err := regexp.Compile(exp) if err != nil { return values.None, err } matches := reg.MatchString(text) return values.NewBoolean(matches), nil } // RegexReplace replace every substring matched with the regexp with a given string. // @param text (String) - The string to split. // @param regex (String) - A regular expression search pattern. // @param replacement (String) - The string to replace the search pattern with // @param caseInsensitive (Boolean) - If set to true, the matching will be case-insensitive. The default is false. // @return (String) - Returns the string text with the search regex pattern replaced with the replacement string wherever the pattern exists in text func RegexReplace(_ context.Context, args ...core.Value) (core.Value, error) { err := core.ValidateArgs(args, 3, 4) if err != nil { return values.EmptyString, err } text := args[0].String() exp := args[1].String() repl := args[2].String() if len(args) > 3 { if args[3] == values.True { exp = "(?i)" + exp } } reg, err := regexp.Compile(exp) if err != nil { return values.None, err } out := reg.ReplaceAllString(text, repl) return values.NewString(out), nil }