// Package strmangle is a collection of string manipulation functions. // Primarily used by boil and templates for code generation. // Because it is focused on pipelining inside templates // you will see some odd parameter ordering. package strmangle import ( "fmt" "math" "regexp" "strings" ) var ( idAlphabet = []byte("abcdefghijklmnopqrstuvwxyz") smartQuoteRgx = regexp.MustCompile(`^(?i)"?[a-z_][_a-z0-9]*"?(\."?[_a-z][_a-z0-9]*"?)*(\.\*)?$`) ) var uppercaseWords = map[string]struct{}{ "guid": struct{}{}, "id": struct{}{}, "uid": struct{}{}, "uuid": struct{}{}, } func init() { // Our Boil inflection Ruleset does not include uncountable inflections. // This way, people using words like Sheep will not have // collisions with their model name (Sheep) and their // function name (Sheep()). Instead, it will // use the regular inflection rules: Sheep, Sheeps(). boilRuleset = newBoilRuleset() } // IdentQuote attempts to quote simple identifiers in SQL tatements func IdentQuote(s string) string { if strings.ToLower(s) == "null" { return s } if m := smartQuoteRgx.MatchString(s); m != true { return s } buf := GetBuffer() defer PutBuffer(buf) splits := strings.Split(s, ".") for i, split := range splits { if i != 0 { buf.WriteByte('.') } if strings.HasPrefix(split, `"`) || strings.HasSuffix(split, `"`) || split == "*" { buf.WriteString(split) continue } buf.WriteByte('"') buf.WriteString(split) buf.WriteByte('"') } return buf.String() } // IdentQuoteSlice applies IdentQuote to a slice. func IdentQuoteSlice(s []string) []string { if len(s) == 0 { return s } strs := make([]string, len(s)) for i, str := range s { strs[i] = IdentQuote(str) } return strs } // Identifier is a base conversion from Base 10 integers to Base 26 // integers that are represented by an alphabet from a-z // See tests for example outputs. func Identifier(in int) string { ln := len(idAlphabet) var n int if in == 0 { n = 1 } else { n = 1 + int(math.Log(float64(in))/math.Log(float64(ln))) } cols := GetBuffer() defer PutBuffer(cols) for i := 0; i < n; i++ { divisor := int(math.Pow(float64(ln), float64(n-i-1))) rem := in / divisor cols.WriteByte(idAlphabet[rem]) in -= rem * divisor } return cols.String() } // Plural converts singular words to plural words (eg: person to people) func Plural(name string) string { buf := GetBuffer() defer PutBuffer(buf) splits := strings.Split(name, "_") for i := 0; i < len(splits); i++ { if i != 0 { buf.WriteByte('_') } if i == len(splits)-1 { buf.WriteString(boilRuleset.Pluralize(splits[len(splits)-1])) break } buf.WriteString(splits[i]) } return buf.String() } // Singular converts plural words to singular words (eg: people to person) func Singular(name string) string { buf := GetBuffer() defer PutBuffer(buf) splits := strings.Split(name, "_") for i := 0; i < len(splits); i++ { if i != 0 { buf.WriteByte('_') } if i == len(splits)-1 { buf.WriteString(boilRuleset.Singularize(splits[len(splits)-1])) break } buf.WriteString(splits[i]) } return buf.String() } // TitleCase changes a snake-case variable name // into a go styled object variable name of "ColumnName". // titleCase also fully uppercases "ID" components of names, for example // "column_name_id" to "ColumnNameID". // // Note: This method is ugly because it has been highly optimized, // we found that it was a fairly large bottleneck when we were using regexp. func TitleCase(n string) string { ln := len(n) name := []byte(n) buf := GetBuffer() start := 0 end := 0 for start < ln { // Find the start and end of the underscores to account // for the possibility of being multiple underscores in a row. if end < ln { if name[start] == '_' { start++ end++ continue // Once we have found the end of the underscores, we can // find the end of the first full word. } else if name[end] != '_' { end++ continue } } word := name[start:end] wordLen := len(word) var vowels bool numStart := wordLen for i, c := range word { vowels = vowels || (c == 97 || c == 101 || c == 105 || c == 111 || c == 117 || c == 121) if c > 47 && c < 58 && numStart == wordLen { numStart = i } } _, match := uppercaseWords[string(word[:numStart])] if match || !vowels { // Uppercase all a-z characters for _, c := range word { if c > 96 && c < 123 { buf.WriteByte(c - 32) } else { buf.WriteByte(c) } } } else { buf.WriteByte(word[0] - 32) buf.Write(word[1:]) } start = end + 1 end = start } ret := buf.String() PutBuffer(buf) return ret } // CamelCase takes a variable name in the format of "var_name" and converts // it into a go styled variable name of "varName". // camelCase also fully uppercases "ID" components of names, for example // "var_name_id" to "varNameID". func CamelCase(name string) string { buf := GetBuffer() defer PutBuffer(buf) index := -1 for i := 0; i < len(name); i++ { if name[i] != '_' { index = i break } } if index != -1 { name = name[index:] } else { return "" } index = -1 for i := 0; i < len(name); i++ { if name[i] == '_' { index = i break } } if index == -1 { buf.WriteString(name) } else { buf.WriteString(name[:index]) buf.WriteString(TitleCase(name[index+1:])) } return buf.String() } // MakeStringMap converts a map[string]string into the format: // "key": "value", "key": "value" func MakeStringMap(types map[string]string) string { buf := GetBuffer() defer PutBuffer(buf) c := 0 for k, v := range types { buf.WriteString(fmt.Sprintf(`"%s": "%s"`, k, v)) if c < len(types)-1 { buf.WriteString(", ") } c++ } return buf.String() } // StringMap maps a function over a slice of strings. func StringMap(modifier func(string) string, strs []string) []string { ret := make([]string, len(strs)) for i, str := range strs { ret[i] = modifier(str) } return ret } // PrefixStringSlice with the given str. func PrefixStringSlice(str string, strs []string) []string { ret := make([]string, len(strs)) for i, s := range strs { ret[i] = fmt.Sprintf("%s%s", str, s) } return ret } // Placeholders generates the SQL statement placeholders for in queries. // For example, ($1,$2,$3),($4,$5,$6) etc. // It will start counting placeholders at "start". func Placeholders(count int, start int, group int) string { buf := GetBuffer() defer PutBuffer(buf) if start == 0 || group == 0 { panic("Invalid start or group numbers supplied.") } if group > 1 { buf.WriteByte('(') } for i := 0; i < count; i++ { if i != 0 { if group > 1 && i%group == 0 { buf.WriteString("),(") } else { buf.WriteByte(',') } } buf.WriteString(fmt.Sprintf("$%d", start+i)) } if group > 1 { buf.WriteByte(')') } return buf.String() } // SetParamNames takes a slice of columns and returns a comma separated // list of parameter names for a template statement SET clause. // eg: "col1"=$1, "col2"=$2, "col3"=$3 func SetParamNames(columns []string) string { buf := GetBuffer() defer PutBuffer(buf) for i, c := range columns { buf.WriteString(fmt.Sprintf(`"%s"=$%d`, c, i+1)) if i < len(columns)-1 { buf.WriteString(", ") } } return buf.String() } // WhereClause returns the where clause using start as the $ flag index // For example, if start was 2 output would be: "colthing=$2 AND colstuff=$3" func WhereClause(start int, cols []string) string { if start == 0 { panic("0 is not a valid start number for whereClause") } buf := GetBuffer() defer PutBuffer(buf) for i, c := range cols { buf.WriteString(fmt.Sprintf(`"%s"=$%d`, c, start+i)) if i < len(cols)-1 { buf.WriteString(" AND ") } } return buf.String() } // JoinSlices merges two string slices of equal length func JoinSlices(sep string, a, b []string) []string { lna, lnb := len(a), len(b) if lna != lnb { panic("joinSlices: can only merge slices of same length") } else if lna == 0 { return nil } ret := make([]string, len(a)) for i, elem := range a { ret[i] = fmt.Sprintf("%s%s%s", elem, sep, b[i]) } return ret } // StringSliceMatch returns true if the length of both // slices is the same, and the elements of both slices are the same. // The elements can be in any order. func StringSliceMatch(a []string, b []string) bool { if len(a) != len(b) { return false } for _, aval := range a { found := false for _, bval := range b { if bval == aval { found = true break } } if !found { return false } } return true }