module pg import orm import time import net.conv // sql expr pub fn (db DB) @select(config orm.SelectConfig, data orm.QueryData, where orm.QueryData) ?[][]orm.Primitive { query := orm.orm_select_gen(config, '"', true, '$', 1, where) mut ret := [][]orm.Primitive{} res := pg_stmt_worker(db, query, orm.QueryData{}, where)? for row in res { mut row_data := []orm.Primitive{} for i, val in row.vals { field := str_to_primitive(val, config.types[i])? row_data << field } ret << row_data } return ret } // sql stmt pub fn (db DB) insert(table string, data orm.QueryData) ? { query := orm.orm_stmt_gen(table, '"', .insert, true, '$', 1, data, orm.QueryData{}) pg_stmt_worker(db, query, data, orm.QueryData{})? } pub fn (db DB) update(table string, data orm.QueryData, where orm.QueryData) ? { query := orm.orm_stmt_gen(table, '"', .update, true, '$', 1, data, where) pg_stmt_worker(db, query, data, where)? } pub fn (db DB) delete(table string, where orm.QueryData) ? { query := orm.orm_stmt_gen(table, '"', .delete, true, '$', 1, orm.QueryData{}, where) pg_stmt_worker(db, query, orm.QueryData{}, where)? } pub fn (db DB) last_id() orm.Primitive { query := 'SELECT LASTVAL();' id := db.q_int(query) or { 0 } return orm.Primitive(id) } // table pub fn (db DB) create(table string, fields []orm.TableField) ? { query := orm.orm_table_gen(table, '"', true, 0, fields, pg_type_from_v, false) or { return err } pg_stmt_worker(db, query, orm.QueryData{}, orm.QueryData{})? } pub fn (db DB) drop(table string) ? { query := 'DROP TABLE "$table";' pg_stmt_worker(db, query, orm.QueryData{}, orm.QueryData{})? } // utils fn pg_stmt_worker(db DB, query string, data orm.QueryData, where orm.QueryData) ?[]Row { mut param_types := []u32{} mut param_vals := []&char{} mut param_lens := []int{} mut param_formats := []int{} pg_stmt_binder(mut param_types, mut param_vals, mut param_lens, mut param_formats, data) pg_stmt_binder(mut param_types, mut param_vals, mut param_lens, mut param_formats, where) res := C.PQexecParams(db.conn, query.str, param_vals.len, param_types.data, param_vals.data, param_lens.data, param_formats.data, 0) return db.handle_error_or_result(res, 'orm_stmt_worker') } fn pg_stmt_binder(mut types []u32, mut vals []&char, mut lens []int, mut formats []int, d orm.QueryData) { for data in d.data { pg_stmt_match(mut types, mut vals, mut lens, mut formats, data) } } fn pg_stmt_match(mut types []u32, mut vals []&char, mut lens []int, mut formats []int, data orm.Primitive) { d := data match data { bool { types << u32(Oid.t_bool) vals << &char(&(d as bool)) lens << int(sizeof(bool)) formats << 1 } u8 { types << u32(Oid.t_char) vals << &char(&(d as u8)) lens << int(sizeof(u8)) formats << 1 } u16 { types << u32(Oid.t_int2) num := conv.htn16(&data) vals << &char(&num) lens << int(sizeof(u16)) formats << 1 } u32 { types << u32(Oid.t_int4) num := conv.htn32(&data) vals << &char(&num) lens << int(sizeof(u32)) formats << 1 } u64 { types << u32(Oid.t_int8) num := conv.htn64(&data) vals << &char(&num) lens << int(sizeof(u64)) formats << 1 } i8 { types << u32(Oid.t_char) vals << &char(&(d as i8)) lens << int(sizeof(i8)) formats << 1 } i16 { types << u32(Oid.t_int2) num := conv.htn16(unsafe { &u16(&data) }) vals << &char(&num) lens << int(sizeof(i16)) formats << 1 } int { types << u32(Oid.t_int4) num := conv.htn32(unsafe { &u32(&data) }) vals << &char(&num) lens << int(sizeof(int)) formats << 1 } i64 { types << u32(Oid.t_int8) num := conv.htn64(unsafe { &u64(&data) }) vals << &char(&num) lens << int(sizeof(i64)) formats << 1 } f32 { types << u32(Oid.t_float4) vals << &char(unsafe { &f32(&(d as f32)) }) lens << int(sizeof(f32)) formats << 1 } f64 { types << u32(Oid.t_float8) vals << &char(unsafe { &f64(&(d as f64)) }) lens << int(sizeof(f64)) formats << 1 } string { types << u32(Oid.t_text) vals << data.str lens << data.len formats << 0 } time.Time { types << u32(Oid.t_int4) vals << &char(&int(data.unix)) lens << int(sizeof(u32)) formats << 1 } orm.InfixType { pg_stmt_match(mut types, mut vals, mut lens, mut formats, data.right) } } } fn pg_type_from_v(typ int) ?string { str := match typ { 6, 10 { 'SMALLINT' } 7, 11, orm.time { 'INT' } 8, 12 { 'BIGINT' } 13 { 'REAL' } 14 { 'DOUBLE PRECISION' } orm.string { 'TEXT' } -1 { 'SERIAL' } else { '' } } if str == '' { return error('Unknown type $typ') } return str } fn str_to_primitive(str string, typ int) ?orm.Primitive { match typ { // bool 16 { return orm.Primitive(str.i8() == 1) } 18 { return orm.Primitive(str == 't') } // i8 5 { return orm.Primitive(str.i8()) } // i16 6 { return orm.Primitive(str.i16()) } // int 7 { return orm.Primitive(str.int()) } // i64 8 { return orm.Primitive(str.i64()) } // byte 9 { data := str.i8() return orm.Primitive(*unsafe { &u8(&data) }) } // u16 10 { data := str.i16() return orm.Primitive(*unsafe { &u16(&data) }) } // u32 11 { data := str.int() return orm.Primitive(*unsafe { &u32(&data) }) } // u64 12 { data := str.i64() return orm.Primitive(*unsafe { &u64(&data) }) } // f32 13 { return orm.Primitive(str.f32()) } // f64 14 { return orm.Primitive(str.f64()) } orm.string { return orm.Primitive(str) } orm.time { if str.contains_any(' /:-') { date_time_str := time.parse(str)? return orm.Primitive(date_time_str) } timestamp := str.int() return orm.Primitive(time.unix(timestamp)) } else {} } return error('Unknown field type $typ') }