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gosora/query_gen/mysql.go

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/* WIP Under Construction */
package qgen
import (
"database/sql"
"errors"
//"fmt"
"os"
"runtime"
"strconv"
"strings"
_ "github.com/go-sql-driver/mysql"
)
var ErrNoCollation = errors.New("You didn't provide a collation")
func init() {
Registry = append(Registry,
&MysqlAdapter{Name: "mysql", Buffer: make(map[string]DBStmt)},
)
}
type MysqlAdapter struct {
Name string // ? - Do we really need this? Can't we hard-code this?
Buffer map[string]DBStmt
BufferOrder []string // Map iteration order is random, so we need this to track the order, so we don't get huge diffs every commit
}
// GetName gives you the name of the database adapter. In this case, it's mysql
func (a *MysqlAdapter) GetName() string {
return a.Name
}
func (a *MysqlAdapter) GetStmt(name string) DBStmt {
return a.Buffer[name]
}
func (a *MysqlAdapter) GetStmts() map[string]DBStmt {
return a.Buffer
}
// TODO: Add an option to disable unix pipes
func (a *MysqlAdapter) BuildConn(config map[string]string) (*sql.DB, error) {
dbCollation, ok := config["collation"]
if !ok {
return nil, ErrNoCollation
}
var dbpassword string
if config["password"] != "" {
dbpassword = ":" + config["password"]
}
// First try opening a pipe as those are faster
if runtime.GOOS == "linux" {
dbsocket := "/tmp/mysql.sock"
if config["socket"] != "" {
dbsocket = config["socket"]
}
// The MySQL adapter refuses to open any other connections, if the unix socket doesn't exist, so check for it first
_, err := os.Stat(dbsocket)
if err == nil {
db, err := sql.Open("mysql", config["username"]+dbpassword+"@unix("+dbsocket+")/"+config["name"]+"?collation="+dbCollation+"&parseTime=true")
if err == nil {
// Make sure that the connection is alive
return db, db.Ping()
}
}
}
// Open the database connection
db, err := sql.Open("mysql", config["username"]+dbpassword+"@tcp("+config["host"]+":"+config["port"]+")/"+config["name"]+"?collation="+dbCollation+"&parseTime=true")
if err != nil {
return db, err
}
// Make sure that the connection is alive
return db, db.Ping()
}
func (a *MysqlAdapter) DbVersion() string {
return "SELECT VERSION()"
}
func (a *MysqlAdapter) DropTable(name, table string) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
q := "DROP TABLE IF EXISTS `" + table + "`;"
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
a.pushStatement(name, "drop-table", q)
return q, nil
}
func (a *MysqlAdapter) CreateTable(name, table, charset, collation string, cols []DBTableColumn, keys []DBTableKey) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
if len(cols) == 0 {
return "", errors.New("You can't have a table with no columns")
}
var qsb strings.Builder
//q := "CREATE TABLE `" + table + "`("
w := func(s string) {
qsb.WriteString(s)
}
w("CREATE TABLE `")
w(table)
w("`(")
for i, col := range cols {
if i != 0 {
w(",\n\t`")
} else {
w("\n\t`")
}
col, size, end := a.parseColumn(col)
//q += "\n\t`" + col.Name + "` " + col.Type + size + end + ","
w(col.Name)
w("` ")
w(col.Type)
w(size)
w(end)
}
if len(keys) > 0 {
/*if len(cols) > 0 {
w(",")
}*/
for _, k := range keys {
/*if ii != 0 {
w(",\n\t")
} else {
w("\n\t")
}*/
w(",\n\t")
//q += "\n\t" + key.Type
w(k.Type)
if k.Type != "unique" {
//q += " key"
w(" key")
}
if k.Type == "foreign" {
cols := strings.Split(k.Columns, ",")
//q += "(`" + cols[0] + "`) REFERENCES `" + k.FTable + "`(`" + cols[1] + "`)"
w("(`")
w(cols[0])
w("`) REFERENCES `")
w(k.FTable)
w("`(`")
w(cols[1])
w("`)")
if k.Cascade {
//q += " ON DELETE CASCADE"
w(" ON DELETE CASCADE")
}
//q += ","
} else {
//q += "("
w("(")
for i, col := range strings.Split(k.Columns, ",") {
/*if i != 0 {
q += ",`" + col + "`"
} else {
q += "`" + col + "`"
}*/
if i != 0 {
w(",`")
} else {
w("`")
}
w(col)
w("`")
}
//q += "),"
w(")")
}
}
}
//q = q[0:len(q)-1] + "\n)"
w("\n)")
if charset != "" {
//q += " CHARSET=" + charset
w(" CHARSET=")
w(charset)
}
if collation != "" {
//q += " COLLATE " + collation
w(" COLLATE ")
w(collation)
}
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
//q += ";"
w(";")
q := qsb.String()
a.pushStatement(name, "create-table", q)
return q, nil
}
func (a *MysqlAdapter) DropColumn(name, table, colName string) (string, error) {
q := "ALTER TABLE `" + table + "` DROP COLUMN `" + colName + "`;"
a.pushStatement(name, "drop-column", q)
return q, nil
}
// ! Currently broken in MariaDB. Planned.
func (a *MysqlAdapter) RenameColumn(name, table, oldName, newName string) (string, error) {
q := "ALTER TABLE `" + table + "` RENAME COLUMN `" + oldName + "` TO `" + newName + "`;"
a.pushStatement(name, "rename-column", q)
return q, nil
}
func (a *MysqlAdapter) ChangeColumn(name, table, colName string, col DBTableColumn) (string, error) {
col.Default = ""
col, size, end := a.parseColumn(col)
q := "ALTER TABLE `" + table + "` CHANGE COLUMN `" + colName + "` `" + col.Name + "` " + col.Type + size + end
a.pushStatement(name, "change-column", q)
return q, nil
}
func (a *MysqlAdapter) SetDefaultColumn(name, table, colName, colType, defaultStr string) (string, error) {
if defaultStr == "" {
defaultStr = "''"
}
// TODO: Exclude the other variants of text like mediumtext and longtext too
expr := ""
/*if colType == "datetime" && defaultStr[len(defaultStr)-1] == ')' {
end += defaultStr
} else */if a.stringyType(colType) && defaultStr != "''" {
expr += "'" + defaultStr + "'"
} else {
expr += defaultStr
}
q := "ALTER TABLE `" + table + "` ALTER COLUMN `" + colName + "` SET DEFAULT " + expr + ";"
a.pushStatement(name, "set-default-column", q)
return q, nil
}
func (a *MysqlAdapter) parseColumn(col DBTableColumn) (ocol DBTableColumn, size, end string) {
// Make it easier to support Cassandra in the future
if col.Type == "createdAt" {
col.Type = "datetime"
// MySQL doesn't support this x.x
/*if col.Default == "" {
col.Default = "UTC_TIMESTAMP()"
}*/
} else if col.Type == "json" {
col.Type = "text"
}
if col.Size > 0 {
size = "(" + strconv.Itoa(col.Size) + ")"
}
// TODO: Exclude the other variants of text like mediumtext and longtext too
if col.Default != "" && col.Type != "text" {
end = " DEFAULT "
/*if col.Type == "datetime" && col.Default[len(col.Default)-1] == ')' {
end += column.Default
} else */if a.stringyType(col.Type) && col.Default != "''" {
end += "'" + col.Default + "'"
} else {
end += col.Default
}
}
if col.Null {
end += " null"
} else {
end += " not null"
}
if col.AutoIncrement {
end += " AUTO_INCREMENT"
}
return col, size, end
}
// TODO: Support AFTER column
// TODO: Test to make sure everything works here
func (a *MysqlAdapter) AddColumn(name, table string, col DBTableColumn, key *DBTableKey) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
col, size, end := a.parseColumn(col)
q := "ALTER TABLE `" + table + "` ADD COLUMN " + "`" + col.Name + "` " + col.Type + size + end
if key != nil {
q += " " + key.Type
if key.Type != "unique" {
q += " key"
} else if key.Type == "primary" {
q += " first"
}
}
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
a.pushStatement(name, "add-column", q)
return q, nil
}
// TODO: Test to make sure everything works here
func (a *MysqlAdapter) AddIndex(name, table, iname, colname string) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
if iname == "" {
return "", errors.New("You need a name for the index")
}
if colname == "" {
return "", errors.New("You need a name for the column")
}
q := "ALTER TABLE `" + table + "` ADD INDEX " + "`i_" + iname + "` (`" + colname + "`);"
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
a.pushStatement(name, "add-index", q)
return q, nil
}
// TODO: Test to make sure everything works here
// Only supports FULLTEXT right now
func (a *MysqlAdapter) AddKey(name, table, cols string, key DBTableKey) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
if cols == "" {
return "", errors.New("You need to specify columns")
}
var colstr string
for _, col := range strings.Split(cols, ",") {
colstr += "`" + col + "`,"
}
if len(colstr) > 1 {
colstr = colstr[:len(colstr)-1]
}
var q string
if key.Type == "fulltext" {
q = "ALTER TABLE `" + table + "` ADD FULLTEXT(" + colstr + ")"
} else {
return "", errors.New("Only fulltext is supported by AddKey right now")
}
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
a.pushStatement(name, "add-key", q)
return q, nil
}
func (a *MysqlAdapter) RemoveIndex(name, table, iname string) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
if iname == "" {
return "", errors.New("You need a name for the index")
}
q := "ALTER TABLE `" + table + "` DROP INDEX `" + iname + "`"
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
a.pushStatement(name, "remove-index", q)
return q, nil
}
func (a *MysqlAdapter) AddForeignKey(name, table, col, ftable, fcolumn string, cascade bool) (out string, e error) {
c := func(str string, val bool) {
if e != nil || !val {
return
}
e = errors.New("You need a " + str + " for this table")
}
c("name", table == "")
c("col", col == "")
c("ftable", ftable == "")
c("fcolumn", fcolumn == "")
if e != nil {
return "", e
}
q := "ALTER TABLE `" + table + "` ADD CONSTRAINT `fk_" + col + "` FOREIGN KEY(`" + col + "`) REFERENCES `" + ftable + "`(`" + fcolumn + "`)"
if cascade {
q += " ON DELETE CASCADE"
}
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
a.pushStatement(name, "add-foreign-key", q)
return q, nil
}
const silen1 = len("INSERT INTO``()VALUES() ")
func (a *MysqlAdapter) SimpleInsert(name, table, cols, fields string) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
var sb *strings.Builder
ii := queryStrPool.Get()
if ii == nil {
sb = &strings.Builder{}
} else {
sb = ii.(*strings.Builder)
sb.Reset()
}
sb.Grow(silen1 + len(table))
sb.WriteString("INSERT INTO`")
sb.WriteString(table)
if cols != "" {
sb.WriteString("`(")
sb.WriteString(a.buildColumns(cols))
sb.WriteString(")VALUES(")
fs := processFields(fields)
sb.Grow(len(fs) * 3)
for i, field := range fs {
if i != 0 {
sb.WriteString(",")
}
nameLen := len(field.Name)
if field.Name[0] == '"' && field.Name[nameLen-1] == '"' && nameLen >= 3 {
sb.WriteRune('\'')
sb.WriteString(field.Name[1 : nameLen-1])
sb.WriteRune('\'')
} else if field.Name[0] == '\'' && field.Name[nameLen-1] == '\'' && nameLen >= 3 {
sb.WriteRune('\'')
sb.WriteString(strings.Replace(field.Name[1:nameLen-1], "'", "''", -1))
sb.WriteRune('\'')
} else {
sb.WriteString(field.Name)
}
}
sb.WriteString(")")
} else {
sb.WriteString("`()VALUES()")
}
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
q := sb.String()
queryStrPool.Put(sb)
a.pushStatement(name, "insert", q)
return q, nil
}
func (a *MysqlAdapter) SimpleBulkInsert(name, table, cols string, fieldSet []string) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
var sb *strings.Builder
ii := queryStrPool.Get()
if ii == nil {
sb = &strings.Builder{}
} else {
sb = ii.(*strings.Builder)
sb.Reset()
}
sb.Grow(silen1 + len(table))
sb.WriteString("INSERT INTO`")
sb.WriteString(table)
if cols != "" {
sb.WriteString("`(")
sb.WriteString(a.buildColumns(cols))
sb.WriteString(")VALUES(")
for oi, fields := range fieldSet {
if oi != 0 {
sb.WriteString(",(")
}
fs := processFields(fields)
sb.Grow(len(fs) * 3)
for i, field := range fs {
if i != 0 {
sb.WriteString(",")
}
nameLen := len(field.Name)
if field.Name[0] == '"' && field.Name[nameLen-1] == '"' && nameLen >= 3 {
//field.Name = "'" + field.Name[1:nameLen-1] + "'"
sb.WriteString("'")
sb.WriteString(field.Name[1 : nameLen-1])
sb.WriteString("'")
continue
}
if field.Name[0] == '\'' && field.Name[nameLen-1] == '\'' && nameLen >= 3 {
//field.Name = "'" + strings.Replace(field.Name[1:nameLen-1], "'", "''", -1) + "'"
sb.WriteString("'")
sb.WriteString(strings.Replace(field.Name[1:nameLen-1], "'", "''", -1))
sb.WriteString("'")
continue
}
sb.WriteString(field.Name)
}
sb.WriteString(")")
}
} else {
sb.WriteString("`()VALUES()")
}
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
q := sb.String()
queryStrPool.Put(sb)
a.pushStatement(name, "bulk-insert", q)
return q, nil
}
func (a *MysqlAdapter) buildColumns(cols string) string {
if cols == "" {
return ""
}
// Escape the column names, just in case we've used a reserved keyword
var cb strings.Builder
pcols := processColumns(cols)
var n int
for i, col := range pcols {
if i != 0 {
n += 1
}
if col.Type == TokenFunc {
n += len(col.Left)
} else {
n += len(col.Left) + 2
}
}
cb.Grow(n)
for i, col := range pcols {
if col.Type == TokenFunc {
if i != 0 {
cb.WriteString(",")
}
//q += col.Left + ","
cb.WriteString(col.Left)
} else {
//q += "`" + col.Left + "`,"
if i != 0 {
cb.WriteString(",`")
} else {
cb.WriteString("`")
}
cb.WriteString(col.Left)
cb.WriteString("`")
}
}
return cb.String()
}
// ! DEPRECATED
func (a *MysqlAdapter) SimpleReplace(name, table, cols, fields string) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
if len(cols) == 0 {
return "", errors.New("No columns found for SimpleInsert")
}
if len(fields) == 0 {
return "", errors.New("No input data found for SimpleInsert")
}
q := "REPLACE INTO `" + table + "`(" + a.buildColumns(cols) + ") VALUES ("
for _, field := range processFields(fields) {
q += field.Name + ","
}
q = q[0:len(q)-1] + ")"
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
a.pushStatement(name, "replace", q)
return q, nil
}
func (a *MysqlAdapter) SimpleUpsert(name, table, columns, fields, where string) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
if len(columns) == 0 {
return "", errors.New("No columns found for SimpleInsert")
}
if len(fields) == 0 {
return "", errors.New("No input data found for SimpleInsert")
}
if where == "" {
return "", errors.New("You need a where for this upsert")
}
q := "INSERT INTO `" + table + "`("
parsedFields := processFields(fields)
var insertColumns, insertValues string
setBit := ") ON DUPLICATE KEY UPDATE "
for columnID, col := range processColumns(columns) {
field := parsedFields[columnID]
if col.Type == TokenFunc {
insertColumns += col.Left + ","
insertValues += field.Name + ","
setBit += col.Left + " = " + field.Name + " AND "
} else {
insertColumns += "`" + col.Left + "`,"
insertValues += field.Name + ","
setBit += "`" + col.Left + "` = " + field.Name + " AND "
}
}
insertColumns = insertColumns[0 : len(insertColumns)-1]
insertValues = insertValues[0 : len(insertValues)-1]
insertColumns += ") VALUES (" + insertValues
setBit = setBit[0 : len(setBit)-5]
q += insertColumns + setBit
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
a.pushStatement(name, "upsert", q)
return q, nil
}
const sulen1 = len("UPDATE `` SET ")
func (a *MysqlAdapter) SimpleUpdate(up *updatePrebuilder) (string, error) {
if up.table == "" {
return "", errors.New("You need a name for this table")
}
if up.set == "" {
return "", errors.New("You need to set data in this update statement")
}
var sb *strings.Builder
ii := queryStrPool.Get()
if ii == nil {
sb = &strings.Builder{}
} else {
sb = ii.(*strings.Builder)
sb.Reset()
}
sb.Grow(sulen1 + len(up.table))
sb.WriteString("UPDATE `")
sb.WriteString(up.table)
sb.WriteString("` SET ")
set := processSet(up.set)
sb.Grow(len(set) * 6)
for i, item := range set {
if i != 0 {
sb.WriteString(",`")
} else {
sb.WriteString("`")
}
sb.WriteString(item.Column)
sb.WriteString("`=")
for _, token := range item.Expr {
switch token.Type {
case TokenFunc, TokenOp, TokenNumber, TokenSub, TokenOr:
sb.WriteString(" ")
sb.WriteString(token.Contents)
case TokenColumn:
sb.WriteString(" `")
sb.WriteString(token.Contents)
sb.WriteString("`")
case TokenString:
sb.WriteString(" '")
sb.WriteString(token.Contents)
sb.WriteString("'")
}
}
}
e := a.buildFlexiWhereSb(sb, up.where, up.dateCutoff)
if e != nil {
return sb.String(), e
}
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
q := sb.String()
queryStrPool.Put(sb)
a.pushStatement(up.name, "update", q)
return q, nil
}
const sdlen1 = len("DELETE FROM `` WHERE")
func (a *MysqlAdapter) SimpleDelete(name, table, where string) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
if where == "" {
return "", errors.New("You need to specify what data you want to delete")
}
var sb *strings.Builder
ii := queryStrPool.Get()
if ii == nil {
sb = &strings.Builder{}
} else {
sb = ii.(*strings.Builder)
sb.Reset()
}
sb.Grow(sdlen1 + len(table))
sb.WriteString("DELETE FROM `")
sb.WriteString(table)
sb.WriteString("` WHERE")
// Add support for BETWEEN x.x
for i, loc := range processWhere(where) {
if i != 0 {
sb.WriteString(" AND")
}
for _, token := range loc.Expr {
switch token.Type {
case TokenFunc, TokenOp, TokenNumber, TokenSub, TokenOr, TokenNot:
sb.WriteRune(' ')
sb.WriteString(token.Contents)
case TokenColumn:
sb.WriteString(" `")
sb.WriteString(token.Contents)
sb.WriteRune('`')
case TokenString:
sb.WriteString(" '")
sb.WriteString(token.Contents)
sb.WriteRune('\'')
default:
panic("This token doesn't exist o_o")
}
}
}
q := strings.TrimSpace(sb.String())
queryStrPool.Put(sb)
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
a.pushStatement(name, "delete", q)
return q, nil
}
const cdlen1 = len("DELETE FROM ``")
func (a *MysqlAdapter) ComplexDelete(b *deletePrebuilder) (string, error) {
if b.table == "" {
return "", errors.New("You need a name for this table")
}
if b.where == "" && b.dateCutoff == nil {
return "", errors.New("You need to specify what data you want to delete")
}
var sb *strings.Builder
ii := queryStrPool.Get()
if ii == nil {
sb = &strings.Builder{}
} else {
sb = ii.(*strings.Builder)
sb.Reset()
}
sb.Grow(cdlen1 + len(b.table))
sb.WriteString("DELETE FROM `")
sb.WriteString(b.table)
sb.WriteRune('`')
e := a.buildFlexiWhereSb(sb, b.where, b.dateCutoff)
if e != nil {
return sb.String(), e
}
q := sb.String()
queryStrPool.Put(sb)
// TODO: Shunt the table name logic and associated stmt list up to the a higher layer to reduce the amount of unnecessary overhead in the builder / accumulator
a.pushStatement(b.name, "delete", q)
return q, nil
}
// We don't want to accidentally wipe tables, so we'll have a separate method for purging tables instead
func (a *MysqlAdapter) Purge(name, table string) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
q := "DELETE FROM `" + table + "`"
a.pushStatement(name, "purge", q)
return q, nil
}
func (a *MysqlAdapter) buildWhere(where string, sb *strings.Builder) error {
if len(where) == 0 {
return nil
}
spl := processWhere(where)
sb.Grow(len(spl) * 8)
for i, loc := range spl {
if i != 0 {
sb.WriteString(" AND ")
} else {
sb.WriteString(" WHERE ")
}
for _, token := range loc.Expr {
switch token.Type {
case TokenFunc, TokenOp, TokenNumber, TokenSub, TokenOr, TokenNot, TokenLike:
sb.WriteString(token.Contents)
sb.WriteRune(' ')
case TokenColumn:
sb.WriteRune('`')
sb.WriteString(token.Contents)
sb.WriteRune('`')
case TokenString:
sb.WriteRune('\'')
sb.WriteString(token.Contents)
sb.WriteRune('\'')
default:
return errors.New("This token doesn't exist o_o")
}
}
}
return nil
}
// The new version of buildWhere() currently only used in ComplexSelect for complex OO builder queries
const FlexiHint1 = len(` <UTC_TIMESTAMP()-interval ? `)
func (a *MysqlAdapter) buildFlexiWhere(where string, dateCutoff *dateCutoff) (q string, err error) {
if len(where) == 0 && dateCutoff == nil {
return "", nil
}
var sb strings.Builder
sb.WriteString(" WHERE")
if dateCutoff != nil {
sb.Grow(6 + FlexiHint1)
sb.WriteRune(' ')
sb.WriteString(dateCutoff.Column)
switch dateCutoff.Type {
case 0:
sb.WriteString(" BETWEEN (UTC_TIMESTAMP()-interval ")
sb.WriteString(strconv.Itoa(dateCutoff.Quantity))
sb.WriteString(" ")
sb.WriteString(dateCutoff.Unit)
sb.WriteString(") AND UTC_TIMESTAMP()")
case 11:
sb.WriteString("<UTC_TIMESTAMP()-interval ? ")
sb.WriteString(dateCutoff.Unit)
default:
sb.WriteString("<UTC_TIMESTAMP()-interval ")
sb.WriteString(strconv.Itoa(dateCutoff.Quantity))
sb.WriteRune(' ')
sb.WriteString(dateCutoff.Unit)
}
}
if dateCutoff != nil && len(where) != 0 {
sb.WriteString(" AND")
}
if len(where) != 0 {
wh := processWhere(where)
sb.Grow((len(wh) * 8) - 5)
for i, loc := range wh {
if i != 0 {
sb.WriteString(" AND ")
}
for _, token := range loc.Expr {
switch token.Type {
case TokenFunc, TokenOp, TokenNumber, TokenSub, TokenOr, TokenNot, TokenLike:
sb.WriteString(" ")
sb.WriteString(token.Contents)
case TokenColumn:
sb.WriteString(" `")
sb.WriteString(token.Contents)
sb.WriteString("`")
case TokenString:
sb.WriteString(" '")
sb.WriteString(token.Contents)
sb.WriteString("'")
default:
return sb.String(), errors.New("This token doesn't exist o_o")
}
}
}
}
return sb.String(), nil
}
func (a *MysqlAdapter) buildFlexiWhereSb(sb *strings.Builder, where string, dateCutoff *dateCutoff) (err error) {
if len(where) == 0 && dateCutoff == nil {
return nil
}
sb.WriteString(" WHERE")
if dateCutoff != nil {
sb.Grow(6 + FlexiHint1)
sb.WriteRune(' ')
sb.WriteString(dateCutoff.Column)
switch dateCutoff.Type {
case 0:
sb.WriteString(" BETWEEN (UTC_TIMESTAMP()-interval ")
sb.WriteString(strconv.Itoa(dateCutoff.Quantity))
sb.WriteString(" ")
sb.WriteString(dateCutoff.Unit)
sb.WriteString(") AND UTC_TIMESTAMP()")
case 11:
sb.WriteString("<UTC_TIMESTAMP()-interval ? ")
sb.WriteString(dateCutoff.Unit)
default:
sb.WriteString("<UTC_TIMESTAMP()-interval ")
sb.WriteString(strconv.Itoa(dateCutoff.Quantity))
sb.WriteRune(' ')
sb.WriteString(dateCutoff.Unit)
}
}
if dateCutoff != nil && len(where) != 0 {
sb.WriteString(" AND")
}
if len(where) != 0 {
wh := processWhere(where)
sb.Grow((len(wh) * 8) - 5)
for i, loc := range wh {
if i != 0 {
sb.WriteString(" AND ")
}
for _, token := range loc.Expr {
switch token.Type {
case TokenFunc, TokenOp, TokenNumber, TokenSub, TokenOr, TokenNot, TokenLike:
sb.WriteString(" ")
sb.WriteString(token.Contents)
case TokenColumn:
sb.WriteString(" `")
sb.WriteString(token.Contents)
sb.WriteString("`")
case TokenString:
sb.WriteString(" '")
sb.WriteString(token.Contents)
sb.WriteString("'")
default:
return errors.New("This token doesn't exist o_o")
}
}
}
}
return nil
}
func (a *MysqlAdapter) buildOrderby(orderby string) (q string) {
if len(orderby) != 0 {
var sb strings.Builder
ord := processOrderby(orderby)
sb.Grow(10 + (len(ord) * 8) - 1)
sb.WriteString(" ORDER BY ")
for i, col := range ord {
// TODO: We might want to escape this column
if i != 0 {
sb.WriteString(",`")
} else {
sb.WriteString("`")
}
sb.WriteString(strings.Replace(col.Column, ".", "`.`", -1))
sb.WriteString("` ")
sb.WriteString(strings.ToUpper(col.Order))
}
q = sb.String()
}
return q
}
func (a *MysqlAdapter) buildOrderbySb(sb *strings.Builder, orderby string) {
if len(orderby) != 0 {
ord := processOrderby(orderby)
sb.Grow(10 + (len(ord) * 8) - 1)
sb.WriteString(" ORDER BY ")
for i, col := range ord {
// TODO: We might want to escape this column
if i != 0 {
sb.WriteString(",`")
} else {
sb.WriteString("`")
}
sb.WriteString(strings.Replace(col.Column, ".", "`.`", -1))
sb.WriteString("` ")
sb.WriteString(strings.ToUpper(col.Order))
}
}
}
func (a *MysqlAdapter) SimpleSelect(name, table, cols, where, orderby, limit string) (string, error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
if len(cols) == 0 {
return "", errors.New("No columns found for SimpleSelect")
}
var sb *strings.Builder
ii := queryStrPool.Get()
if ii == nil {
sb = &strings.Builder{}
} else {
sb = ii.(*strings.Builder)
sb.Reset()
}
sb.WriteString("SELECT ")
// Slice up the user friendly strings into something easier to process
for i, col := range strings.Split(strings.TrimSpace(cols), ",") {
if i != 0 {
sb.WriteString("`,`")
} else {
sb.WriteRune('`')
}
sb.WriteString(strings.TrimSpace(col))
}
sb.WriteString("`FROM`")
sb.WriteString(table)
sb.WriteRune('`')
err := a.buildWhere(where, sb)
if err != nil {
return "", err
}
a.buildOrderbySb(sb, orderby)
a.buildLimitSb(sb, limit)
q := strings.TrimSpace(sb.String())
queryStrPool.Put(sb)
a.pushStatement(name, "select", q)
return q, nil
}
func (a *MysqlAdapter) ComplexSelect(preBuilder *selectPrebuilder) (out string, e error) {
var sb *strings.Builder
ii := queryStrPool.Get()
if ii == nil {
sb = &strings.Builder{}
} else {
sb = ii.(*strings.Builder)
sb.Reset()
}
e = a.complexSelect(preBuilder, sb)
out = sb.String()
queryStrPool.Put(sb)
a.pushStatement(preBuilder.name, "select", out)
return out, e
}
const cslen1 = len("SELECT FROM ``")
const cslen2 = len("WHERE``IN(")
func (a *MysqlAdapter) complexSelect(preBuilder *selectPrebuilder, sb *strings.Builder) error {
if preBuilder.table == "" {
return errors.New("You need a name for this table")
}
if len(preBuilder.columns) == 0 {
return errors.New("No columns found for ComplexSelect")
}
cols := a.buildJoinColumns(preBuilder.columns)
sb.Grow(cslen1 + len(cols) + len(preBuilder.table))
sb.WriteString("SELECT ")
sb.WriteString(cols)
sb.WriteString(" FROM `")
sb.WriteString(preBuilder.table)
sb.WriteRune('`')
// TODO: Let callers have a Where() and a InQ()
if preBuilder.inChain != nil {
sb.Grow(cslen2 + len(preBuilder.inColumn))
sb.WriteString("WHERE`")
sb.WriteString(preBuilder.inColumn)
sb.WriteString("`IN(")
e := a.complexSelect(preBuilder.inChain, sb)
if e != nil {
return e
}
sb.WriteRune(')')
} else {
e := a.buildFlexiWhereSb(sb, preBuilder.where, preBuilder.dateCutoff)
if e != nil {
return e
}
}
a.buildOrderbySb(sb, preBuilder.orderby)
a.buildLimitSb(sb, preBuilder.limit)
return nil
}
func (a *MysqlAdapter) SimpleLeftJoin(name, table1, table2, columns, joiners, where, orderby, limit string) (string, error) {
if table1 == "" {
return "", errors.New("You need a name for the left table")
}
if table2 == "" {
return "", errors.New("You need a name for the right table")
}
if len(columns) == 0 {
return "", errors.New("No columns found for SimpleLeftJoin")
}
if len(joiners) == 0 {
return "", errors.New("No joiners found for SimpleLeftJoin")
}
whereStr, err := a.buildJoinWhere(where)
if err != nil {
return "", err
}
thalf1 := strings.Split(strings.Replace(table1, " as ", " AS ", -1), " AS ")
var as1 string
if len(thalf1) == 2 {
as1 = " AS `" + thalf1[1] + "`"
}
thalf2 := strings.Split(strings.Replace(table2, " as ", " AS ", -1), " AS ")
var as2 string
if len(thalf2) == 2 {
as2 = " AS `" + thalf2[1] + "`"
}
q := "SELECT" + a.buildJoinColumns(columns) + " FROM `" + thalf1[0] + "`" + as1 + " LEFT JOIN `" + thalf2[0] + "`" + as2 + " ON " + a.buildJoiners(joiners) + whereStr + a.buildOrderby(orderby) + a.buildLimit(limit)
q = strings.TrimSpace(q)
a.pushStatement(name, "select", q)
return q, nil
}
func (a *MysqlAdapter) SimpleInnerJoin(name, table1, table2, columns, joiners, where, orderby, limit string) (string, error) {
if table1 == "" {
return "", errors.New("You need a name for the left table")
}
if table2 == "" {
return "", errors.New("You need a name for the right table")
}
if len(columns) == 0 {
return "", errors.New("No columns found for SimpleInnerJoin")
}
if len(joiners) == 0 {
return "", errors.New("No joiners found for SimpleInnerJoin")
}
whereStr, err := a.buildJoinWhere(where)
if err != nil {
return "", err
}
thalf1 := strings.Split(strings.Replace(table1, " as ", " AS ", -1), " AS ")
var as1 string
if len(thalf1) == 2 {
as1 = " AS `" + thalf1[1] + "`"
}
thalf2 := strings.Split(strings.Replace(table2, " as ", " AS ", -1), " AS ")
var as2 string
if len(thalf2) == 2 {
as2 = " AS `" + thalf2[1] + "`"
}
q := "SELECT " + a.buildJoinColumns(columns) + " FROM `" + thalf1[0] + "`" + as1 + " INNER JOIN `" + thalf2[0] + "`" + as2 + " ON " + a.buildJoiners(joiners) + whereStr + a.buildOrderby(orderby) + a.buildLimit(limit)
q = strings.TrimSpace(q)
a.pushStatement(name, "select", q)
return q, nil
}
func (a *MysqlAdapter) SimpleUpdateSelect(up *updatePrebuilder) (string, error) {
sel := up.whereSubQuery
sb := &strings.Builder{}
err := a.buildWhere(sel.where, sb)
if err != nil {
return "", err
}
var setter string
for _, item := range processSet(up.set) {
setter += "`" + item.Column + "`="
for _, token := range item.Expr {
switch token.Type {
case TokenFunc, TokenOp, TokenNumber, TokenSub, TokenOr:
setter += token.Contents
case TokenColumn:
setter += "`" + token.Contents + "`"
case TokenString:
setter += "'" + token.Contents + "'"
}
}
setter += ","
}
setter = setter[0 : len(setter)-1]
q := "UPDATE `" + up.table + "` SET " + setter + " WHERE (SELECT" + a.buildJoinColumns(sel.columns) + " FROM `" + sel.table + "`" + sb.String() + a.buildOrderby(sel.orderby) + a.buildLimit(sel.limit) + ")"
q = strings.TrimSpace(q)
a.pushStatement(up.name, "update", q)
return q, nil
}
func (a *MysqlAdapter) SimpleInsertSelect(name string, ins DBInsert, sel DBSelect) (string, error) {
sb := &strings.Builder{}
e := a.buildWhere(sel.Where, sb)
if e != nil {
return "", e
}
q := "INSERT INTO `" + ins.Table + "`(" + a.buildColumns(ins.Columns) + ") SELECT" + a.buildJoinColumns(sel.Columns) + " FROM `" + sel.Table + "`" + sb.String() + a.buildOrderby(sel.Orderby) + a.buildLimit(sel.Limit)
q = strings.TrimSpace(q)
a.pushStatement(name, "insert", q)
return q, nil
}
func (a *MysqlAdapter) SimpleInsertLeftJoin(name string, ins DBInsert, sel DBJoin) (string, error) {
whereStr, e := a.buildJoinWhere(sel.Where)
if e != nil {
return "", e
}
q := "INSERT INTO `" + ins.Table + "`(" + a.buildColumns(ins.Columns) + ") SELECT" + a.buildJoinColumns(sel.Columns) + " FROM `" + sel.Table1 + "` LEFT JOIN `" + sel.Table2 + "` ON " + a.buildJoiners(sel.Joiners) + whereStr + a.buildOrderby(sel.Orderby) + a.buildLimit(sel.Limit)
q = strings.TrimSpace(q)
a.pushStatement(name, "insert", q)
return q, nil
}
// TODO: Make this more consistent with the other build* methods?
func (a *MysqlAdapter) buildJoiners(joiners string) (q string) {
var qb strings.Builder
for i, j := range processJoiner(joiners) {
//q += "`" + j.LeftTable + "`.`" + j.LeftColumn + "` " + j.Operator + " `" + j.RightTable + "`.`" + j.RightColumn + "` AND "
if i != 0 {
qb.WriteString("AND`")
} else {
qb.WriteString("`")
}
qb.WriteString(j.LeftTable)
qb.WriteString("`.`")
qb.WriteString(j.LeftColumn)
qb.WriteString("` ")
qb.WriteString(j.Operator)
qb.WriteString(" `")
qb.WriteString(j.RightTable)
qb.WriteString("`.`")
qb.WriteString(j.RightColumn)
qb.WriteString("`")
}
return qb.String()
}
// Add support for BETWEEN x.x
func (a *MysqlAdapter) buildJoinWhere(where string) (q string, e error) {
if len(where) != 0 {
var qsb strings.Builder
ws := processWhere(where)
qsb.Grow(6 + (len(ws) * 5))
qsb.WriteString(" WHERE")
for i, loc := range ws {
if i != 0 {
qsb.WriteString(" AND")
}
for _, token := range loc.Expr {
switch token.Type {
case TokenFunc, TokenOp, TokenNumber, TokenSub, TokenOr, TokenNot, TokenLike:
qsb.WriteRune(' ')
qsb.WriteString(token.Contents)
case TokenColumn:
qsb.WriteString(" `")
halves := strings.Split(token.Contents, ".")
if len(halves) == 2 {
qsb.WriteString(halves[0])
qsb.WriteString("`.`")
qsb.WriteString(halves[1])
} else {
qsb.WriteString(token.Contents)
}
qsb.WriteRune('`')
case TokenString:
qsb.WriteString(" '")
qsb.WriteString(token.Contents)
qsb.WriteRune('\'')
default:
return qsb.String(), errors.New("This token doesn't exist o_o")
}
}
}
return qsb.String(), nil
}
return q, nil
}
func (a *MysqlAdapter) buildLimit(limit string) (q string) {
if limit != "" {
q = " LIMIT " + limit
}
return q
}
func (a *MysqlAdapter) buildLimitSb(sb *strings.Builder, limit string) {
if limit != "" {
sb.WriteString(" LIMIT ")
sb.WriteString(limit)
}
}
func (a *MysqlAdapter) buildJoinColumns(cols string) (q string) {
for _, col := range processColumns(cols) {
// TODO: Move the stirng and number logic to processColumns?
// TODO: Error if [0] doesn't exist
firstChar := col.Left[0]
if firstChar == '\'' {
col.Type = TokenString
} else {
_, e := strconv.Atoi(string(firstChar))
if e == nil {
col.Type = TokenNumber
}
}
// Escape the column names, just in case we've used a reserved keyword
source := col.Left
if col.Table != "" {
source = "`" + col.Table + "`.`" + source + "`"
} else if col.Type != TokenScope && col.Type != TokenFunc && col.Type != TokenNumber && col.Type != TokenSub && col.Type != TokenString {
source = "`" + source + "`"
}
var alias string
if col.Alias != "" {
alias = " AS `" + col.Alias + "`"
}
q += " " + source + alias + ","
}
return q[0 : len(q)-1]
}
func (a *MysqlAdapter) SimpleInsertInnerJoin(name string, ins DBInsert, sel DBJoin) (string, error) {
whereStr, err := a.buildJoinWhere(sel.Where)
if err != nil {
return "", err
}
q := "INSERT INTO `" + ins.Table + "`(" + a.buildColumns(ins.Columns) + ") SELECT" + a.buildJoinColumns(sel.Columns) + " FROM `" + sel.Table1 + "` INNER JOIN `" + sel.Table2 + "` ON " + a.buildJoiners(sel.Joiners) + whereStr + a.buildOrderby(sel.Orderby) + a.buildLimit(sel.Limit)
q = strings.TrimSpace(q)
a.pushStatement(name, "insert", q)
return q, nil
}
const sclen1 = len("SELECT COUNT(*) FROM``")
func (a *MysqlAdapter) SimpleCount(name, table, where, limit string) (q string, e error) {
if table == "" {
return "", errors.New("You need a name for this table")
}
var sb *strings.Builder
ii := queryStrPool.Get()
if ii == nil {
sb = &strings.Builder{}
} else {
sb = ii.(*strings.Builder)
sb.Reset()
}
sb.Grow(sclen1 + len(table))
sb.WriteString("SELECT COUNT(*) FROM`")
sb.WriteString(table)
sb.WriteRune('`')
if e = a.buildWhere(where, sb); e != nil {
return "", e
}
a.buildLimitSb(sb, limit)
q = strings.TrimSpace(sb.String())
queryStrPool.Put(sb)
a.pushStatement(name, "select", q)
return q, nil
}
func (a *MysqlAdapter) Builder() *prebuilder {
return &prebuilder{a}
}
func (a *MysqlAdapter) Write() error {
var stmts, body string
for _, name := range a.BufferOrder {
if name[0] == '_' {
continue
}
stmt := a.Buffer[name]
// ? - Table creation might be a little complex for Go to do outside a SQL file :(
if stmt.Type == "upsert" {
stmts += "\t" + name + " *qgen.MySQLUpsertCallback\n"
body += `
dl("Preparing ` + name + ` statement.")
stmts.` + name + `, e = qgen.PrepareMySQLUpsertCallback(db,"` + stmt.Contents + `")
if e != nil {
l("Error in ` + name + ` statement.")
return e
}
`
} else if stmt.Type != "create-table" {
stmts += "\t" + name + " *sql.Stmt\n"
body += `
dl("Preparing ` + name + ` statement.")
stmts.` + name + `, e = db.Prepare("` + stmt.Contents + `")
if e != nil {
l("Error in ` + name + ` statement.")
return e
}
`
}
}
// TODO: Move these custom queries out of this file
out := `// +build !pgsql,!mssql
/* This file was generated by Gosora's Query Generator. Please try to avoid modifying this file, as it might change at any time. */
package main
import(
"log"
"database/sql"
c "git.tuxpa.in/a/gosora/common"
//"git.tuxpa.in/a/gosora/query_gen"
)
// nolint
type Stmts struct {
` + stmts + `
getActivityFeedByWatcher *sql.Stmt
//getActivityFeedByWatcherAfter *sql.Stmt
getActivityCountByWatcher *sql.Stmt
Mocks bool
}
// nolint
func _gen_mysql() (e error) {
dl := c.DebugLog
dl("Building the generated statements")
l := log.Print
_ = l
` + body + `
return nil
}
`
return writeFile("./gen_mysql.go", out)
}
// Internal methods, not exposed in the interface
func (a *MysqlAdapter) pushStatement(name, stype, q string) {
if name == "" {
return
}
a.Buffer[name] = DBStmt{q, stype}
a.BufferOrder = append(a.BufferOrder, name)
}
func (a *MysqlAdapter) stringyType(ct string) bool {
ct = strings.ToLower(ct)
return ct == "varchar" || ct == "tinytext" || ct == "text" || ct == "mediumtext" || ct == "longtext" || ct == "char" || ct == "datetime" || ct == "timestamp" || ct == "time" || ct == "date"
}
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