sqlboiler/cmds/template_funcs.go
Patrick O'brien 9c493810ec Finished most of delete functions
* Fixed some template errors
* Added IN helpers
2016-04-23 21:54:24 +10:00

272 lines
8.1 KiB
Go

package cmds
import (
"fmt"
"strings"
"github.com/jinzhu/inflection"
"github.com/pobri19/sqlboiler/dbdrivers"
)
// plural converts singular words to plural words (eg: person to people)
func plural(name string) string {
splits := strings.Split(name, "_")
splits[len(splits)-1] = inflection.Plural(splits[len(splits)-1])
return strings.Join(splits, "_")
}
// singular converts plural words to singular words (eg: people to person)
func singular(name string) string {
splits := strings.Split(name, "_")
splits[len(splits)-1] = inflection.Singular(splits[len(splits)-1])
return strings.Join(splits, "_")
}
// 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".
func titleCase(name string) string {
splits := strings.Split(name, "_")
for i, split := range splits {
if split == "id" {
splits[i] = "ID"
continue
}
splits[i] = strings.Title(split)
}
return strings.Join(splits, "")
}
// titleCaseSingular changes a snake-case variable name
// to a go styled object variable name of "ColumnName".
// titleCaseSingular also converts the last word in the
// variable name to a singularized version of itself.
func titleCaseSingular(name string) string {
return titleCase(singular(name))
}
// titleCasePlural changes a snake-case variable name
// to a go styled object variable name of "ColumnName".
// titleCasePlural also converts the last word in the
// variable name to a pluralized version of itself.
func titleCasePlural(name string) string {
return titleCase(plural(name))
}
// 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 {
splits := strings.Split(name, "_")
for i, split := range splits {
if split == "id" && i > 0 {
splits[i] = "ID"
continue
}
if i == 0 {
continue
}
splits[i] = strings.Title(split)
}
return strings.Join(splits, "")
}
// camelCaseSingular takes a variable name in the format of "var_name" and converts
// it into a go styled variable name of "varName".
// camelCaseSingular also converts the last word in the
// variable name to a singularized version of itself.
func camelCaseSingular(name string) string {
return camelCase(singular(name))
}
// camelCasePlural takes a variable name in the format of "var_name" and converts
// it into a go styled variable name of "varName".
// camelCasePlural also converts the last word in the
// variable name to a pluralized version of itself.
func camelCasePlural(name string) string {
return camelCase(plural(name))
}
// makeDBName takes a table name in the format of "table_name" and a
// column name in the format of "column_name" and returns a name used in the
// `db:""` component of an object in the format of "table_name_column_name"
func makeDBName(tableName, colName string) string {
return tableName + "_" + colName
}
// updateParamNames takes a []Column and returns a comma seperated
// list of parameter names for the update statement template SET clause.
// eg: col1=$1,col2=$2,col3=$3
// Note: updateParamNames will exclude the PRIMARY KEY column.
func updateParamNames(columns []dbdrivers.Column, pkeyColumns []string) string {
names := make([]string, 0, len(columns))
counter := 0
for _, c := range columns {
if isPrimaryKey(c.Name, pkeyColumns) {
continue
}
counter++
names = append(names, fmt.Sprintf("%s=$%d", c.Name, counter))
}
return strings.Join(names, ",")
}
// updateParamVariables takes a prefix and a []Columns and returns a
// comma seperated list of parameter variable names for the update statement.
// eg: prefix("o."), column("name_id") -> "o.NameID, ..."
// Note: updateParamVariables will exclude the PRIMARY KEY column.
func updateParamVariables(prefix string, columns []dbdrivers.Column, pkeyColumns []string) string {
names := make([]string, 0, len(columns))
for _, c := range columns {
if isPrimaryKey(c.Name, pkeyColumns) {
continue
}
n := prefix + titleCase(c.Name)
names = append(names, n)
}
return strings.Join(names, ", ")
}
// isPrimaryKey checks if the column is found in the primary key columns
func isPrimaryKey(col string, pkeyCols []string) bool {
for _, pkey := range pkeyCols {
if pkey == col {
return true
}
}
return false
}
// insertParamNames takes a []Column and returns a comma seperated
// list of parameter names for the insert statement template.
func insertParamNames(columns []dbdrivers.Column) string {
names := make([]string, 0, len(columns))
for _, c := range columns {
names = append(names, c.Name)
}
return strings.Join(names, ", ")
}
// insertParamFlags takes a []Column and returns a comma seperated
// list of parameter flags for the insert statement template.
func insertParamFlags(columns []dbdrivers.Column) string {
params := make([]string, 0, len(columns))
for i := range columns {
params = append(params, fmt.Sprintf("$%d", i+1))
}
return strings.Join(params, ", ")
}
// insertParamVariables takes a prefix and a []Columns and returns a
// comma seperated list of parameter variable names for the insert statement.
// For example: prefix("o."), column("name_id") -> "o.NameID, ..."
func insertParamVariables(prefix string, columns []dbdrivers.Column) string {
names := make([]string, 0, len(columns))
for _, c := range columns {
n := prefix + titleCase(c.Name)
names = append(names, n)
}
return strings.Join(names, ", ")
}
// selectParamNames takes a []Column and returns a comma seperated
// list of parameter names with for the select statement template.
// It also uses the table name to generate the "AS" part of the statement, for
// example: var_name AS table_name_var_name, ...
func selectParamNames(tableName string, columns []dbdrivers.Column) string {
selects := make([]string, 0, len(columns))
for _, c := range columns {
statement := fmt.Sprintf("%s AS %s", c.Name, makeDBName(tableName, c.Name))
selects = append(selects, statement)
}
return strings.Join(selects, ", ")
}
// scanParamNames takes a []Column and returns a comma seperated
// list of parameter names for use in a db.Scan() call.
func scanParamNames(object string, columns []dbdrivers.Column) string {
scans := make([]string, 0, len(columns))
for _, c := range columns {
statement := fmt.Sprintf("&%s.%s", object, titleCase(c.Name))
scans = append(scans, statement)
}
return strings.Join(scans, ", ")
}
// hasPrimaryKey returns true if one of the columns passed in is a primary key
func hasPrimaryKey(pKey *dbdrivers.PrimaryKey) bool {
if pKey == nil || len(pKey.Columns) == 0 {
return false
}
return true
}
// wherePrimaryKey returns the where clause using start as the $ flag index
// For example, if start was 2 output would be: "colthing=$2 AND colstuff=$3"
func wherePrimaryKey(pkeyCols []string, start int) string {
var output string
for i, c := range pkeyCols {
output = fmt.Sprintf("%s%s=$%d", output, c, start)
start++
if i < len(pkeyCols)-1 {
output = fmt.Sprintf("%s AND ", output)
}
}
return output
}
// primaryKeyStrList returns a list of primary key column names in strings
// For example: "col1", "col2", "col3"
func primaryKeyStrList(pkeyCols []string) string {
for i, c := range pkeyCols {
pkeyCols[i] = fmt.Sprintf(`"%s"`, c)
}
return strings.Join(pkeyCols, ", ")
}
// commaList returns a comma seperated list: "col1, col2, col3"
func commaList(cols []string) string {
return strings.Join(cols, ", ")
}
// paramsPrimaryKey returns the parameters for the sql statement $ flags
// For example, if prefix was "o.", and titleCase was true: "o.ColumnName1, o.ColumnName2"
func paramsPrimaryKey(prefix string, columns []string, shouldTitleCase bool) string {
names := make([]string, 0, len(columns))
for _, c := range columns {
var n string
if shouldTitleCase {
n = prefix + titleCase(c)
} else {
n = prefix + c
}
names = append(names, n)
}
return strings.Join(names, ", ")
}
func primaryKeyFlagIndex(regularCols []dbdrivers.Column, pkeyCols []string) int {
return len(regularCols) - len(pkeyCols) + 1
}