package boil import ( "bytes" "database/sql" "fmt" "strings" ) type where struct { clause string orSeperator bool args []interface{} } type join struct { on string args []interface{} } type Query struct { executor Executor delete bool update map[string]interface{} selectCols []string count bool table string innerJoins []join outerJoins []join leftOuterJoins []join rightOuterJoins []join where []where groupBy []string orderBy []string having []string limit int } func buildQuery(q *Query) (string, []interface{}) { var buf *bytes.Buffer var args []interface{} switch { case q.delete: buf, args = buildDeleteQuery(q) case len(q.update) > 0: buf, args = buildUpdateQuery(q) default: buf, args = buildSelectQuery(q) } return buf.String(), args } func buildSelectQuery(q *Query) (*bytes.Buffer, []interface{}) { buf := &bytes.Buffer{} buf.WriteString("SELECT ") if q.count { buf.WriteString("COUNT(") } if len(q.selectCols) > 0 { buf.WriteString(strings.Join(q.selectCols, ",")) } else { buf.WriteByte('*') } // close sql COUNT function if q.count { buf.WriteString(")") } buf.WriteString(" FROM ") fmt.Fprintf(buf, `"%s"`, q.table) buf.WriteByte(';') return buf, []interface{}{} } func buildDeleteQuery(q *Query) (*bytes.Buffer, []interface{}) { buf := &bytes.Buffer{} var args []interface{} buf.WriteString("DELETE FROM ") fmt.Fprintf(buf, `"%s"`, q.table) if len(q.where) > 0 { buf.WriteString(" WHERE ") for i := 0; i < len(q.where); i++ { buf.WriteString(fmt.Sprintf("%s", q.where[i].clause)) args = append(args, q.where[i].args...) if i != len(q.where)-1 { if q.where[i].orSeperator { buf.WriteString(" OR ") } else { buf.WriteString(" AND ") } } } } buf.WriteByte(';') return buf, args } func buildUpdateQuery(q *Query) (*bytes.Buffer, []interface{}) { buf := &bytes.Buffer{} buf.WriteByte(';') return buf, nil } // ExecQuery executes a query that does not need a row returned func ExecQuery(q *Query) (sql.Result, error) { qs, args := buildQuery(q) if DebugMode { fmt.Fprintln(DebugWriter, qs) } return q.executor.Exec(qs, args...) } // ExecQueryOne executes the query for the One finisher and returns a row func ExecQueryOne(q *Query) *sql.Row { qs, args := buildQuery(q) if DebugMode { fmt.Fprintln(DebugWriter, qs) } return q.executor.QueryRow(qs, args...) } // ExecQueryAll executes the query for the All finisher and returns multiple rows func ExecQueryAll(q *Query) (*sql.Rows, error) { qs, args := buildQuery(q) if DebugMode { fmt.Fprintln(DebugWriter, qs) } return q.executor.Query(qs, args...) } func SetCount(q *Query) { q.count = true } func SetDelete(q *Query) { q.delete = true } func SetUpdate(q *Query, cols map[string]interface{}) { q.update = cols } func SetExecutor(q *Query, exec Executor) { q.executor = exec } func SetSelect(q *Query, columns ...string) { q.selectCols = append(q.selectCols, columns...) } func Select(q *Query) []string { cols := make([]string, len(q.selectCols)) copy(cols, q.selectCols) return cols } func SetTable(q *Query, table string) { q.table = table } func SetInnerJoin(q *Query, on string, args ...interface{}) { q.innerJoins = append(q.innerJoins, join{on: on, args: args}) } func SetOuterJoin(q *Query, on string, args ...interface{}) { q.outerJoins = append(q.outerJoins, join{on: on, args: args}) } func SetLeftOuterJoin(q *Query, on string, args ...interface{}) { q.leftOuterJoins = append(q.leftOuterJoins, join{on: on, args: args}) } func SetRightOuterJoin(q *Query, on string, args ...interface{}) { q.rightOuterJoins = append(q.rightOuterJoins, join{on: on, args: args}) } func SetWhere(q *Query, clause string, args ...interface{}) { q.where = append(q.where, where{clause: clause, args: args}) } func SetGroupBy(q *Query, clause string) { q.groupBy = append(q.groupBy, clause) } func SetOrderBy(q *Query, clause string) { q.orderBy = append(q.orderBy, clause) } func SetHaving(q *Query, clause string) { q.having = append(q.having, clause) } func SetLimit(q *Query, limit int) { q.limit = limit }