package db

import (
	"database/sql"
	"reflect"
	"time"

	"git.bit5.ru/backend/dbr"
	"git.bit5.ru/backend/errors"
	"git.bit5.ru/backend/mysql"

	"github.com/go-logr/logr"
)

type Settings struct {
	Host, Port, User, Pass, Name, Prefix, Params string
	Driver                                       string
	LogLevel                                     int
	Weight                                       uint32
	MaxIdleConns, MaxOpenConns                   int
	ConnMaxLifetimeSec, ConnMaxIdleTimeSec       int
}

func (s *Settings) ConnStr() string {
	return s.User + ":" + s.Pass + "@tcp(" + s.Host + ":" + s.Port + ")/" + s.Name + s.Params
}

type Pool struct {
	DB *sql.DB
	S  Settings
}

func (p *Pool) Close() {
	p.DB.Close()
}

type DBC struct {
	Logger logr.Logger
	P      *Pool
	//NOTE: it's not a 'connection', it embeds sql.Pool (dbr uses strange names for entities)
	con       *dbr.Connection
	sess      *dbr.Session
	trx       *dbr.Tx
	trxRefs   int
	commitTry int
}

func OpenPool(s Settings) *Pool {
	driver := s.Driver
	if len(driver) == 0 {
		driver = "mysql"
	}
	//NOTE: sql.Open(..) doesn't happen to return an error
	sqlDb, _ := sql.Open(driver, s.ConnStr())

	if s.MaxIdleConns == 0 {
		//NOTE: using default sql.DB settings
		sqlDb.SetMaxIdleConns(2)
	} else {
		sqlDb.SetMaxIdleConns(s.MaxIdleConns)
	}
	if s.MaxOpenConns != 0 {
		sqlDb.SetMaxOpenConns(s.MaxOpenConns)
	}
	if s.ConnMaxLifetimeSec != 0 {
		sqlDb.SetConnMaxLifetime(time.Second * time.Duration(s.ConnMaxLifetimeSec))
	}
	if s.ConnMaxIdleTimeSec != 0 {
		sqlDb.SetConnMaxIdleTime(time.Second * time.Duration(s.ConnMaxIdleTimeSec))
	}

	return &Pool{DB: sqlDb, S: s}
}

func GetDBC(p *Pool, logger logr.Logger) *DBC {
	if len(p.S.Prefix) > 0 {
		logger = logger.WithValues("db", p.S.Prefix)
  }

	con := dbr.NewConnection(p.DB, nil)
	sess := con.NewSession(&EventReceiver{logger: logger, s: p.S})

	dbc := &DBC{Logger: logger, P: p, con: con, sess: sess}

	return dbc
}

func (dbc *DBC) DB() *sql.DB {
	return dbc.P.DB
}

func (dbc *DBC) Transaction(txFunc func(dbc *DBC) error) (err error) {
	err = dbc.Begin()
	if err != nil {
		return
	}
	defer func() {
		if p := recover(); p != nil {
			dbc.Rollback()
			panic(p) // re-throw panic after Rollback
		} else if err != nil {
			dbc.Rollback() // err is non-nil; don't change it
		} else {
			err = dbc.Commit() // err is nil; if Commit returns error update err
		}
	}()
	err = txFunc(dbc)
	return err
}

func (dbc *DBC) Begin() error {
	//check if we are already in a transaction
	if dbc.trx != nil {
		dbc.trxRefs++
		return nil
	}
	trx, err := dbc.sess.Begin()
	if err == nil {
		dbc.trx = trx
		dbc.trxRefs = 1
		dbc.commitTry = 0
	}
	return err
}

func (dbc *DBC) Rollback() error {
	if dbc.trxRefs > 0 {
		dbc.trxRefs--
		if dbc.trxRefs == 0 {
			if err := dbc.trx.Rollback(); err != nil {
				return err
			}
			dbc.trx = nil
		}
	}
	return nil
}

func (dbc *DBC) RollbackOnDefer() {
	if dbc.commitTry == 0 {
		dbc.Rollback()
	} else {
		dbc.commitTry--
	}
}

func (dbc *DBC) Commit() error {
	dbc.commitTry++
	if dbc.trxRefs > 0 {
		dbc.trxRefs--
		if dbc.trxRefs == 0 {
			if err := dbc.trx.Commit(); err != nil {
				return err
			}
			dbc.trx = nil
		}
	}
	return nil
}

// Update creates a new UpdateBuilder for the given table
func (dbc *DBC) Update(table string) *dbr.UpdateBuilder {
	if dbc.trx == nil {
		return &dbr.UpdateBuilder{
			Session: dbc.sess,
			Runner:  dbc.P.DB,
			Table:   table,
		}
	}

	return &dbr.UpdateBuilder{
		Session: dbc.trx.Session,
		Runner:  dbc.trx.Tx,
		Table:   table,
	}
}

// UpdateBySQL creates a new UpdateBuilder for the given SQL string and arguments
func (dbc *DBC) UpdateBySQL(sql string, args ...interface{}) *dbr.UpdateBuilder {
	if dbc.trx == nil {
		return &dbr.UpdateBuilder{
			Session:      dbc.sess,
			Runner:       dbc.P.DB,
			RawFullSql:   sql,
			RawArguments: args,
		}
	}

	return &dbr.UpdateBuilder{
		Session:      dbc.trx.Session,
		Runner:       dbc.trx.Tx,
		RawFullSql:   sql,
		RawArguments: args,
	}
}

// DeleteFrom creates a new DeleteBuilder for the given table
func (dbc *DBC) DeleteFrom(from string) *dbr.DeleteBuilder {
	if dbc.trx == nil {
		return &dbr.DeleteBuilder{
			Session: dbc.sess,
			Runner:  dbc.P.DB,
			From:    from,
		}
	}

	return &dbr.DeleteBuilder{
		Session: dbc.trx.Session,
		Runner:  dbc.trx.Tx,
		From:    from,
	}
}

// Select creates a new SelectBuilder that select that given columns
func (dbc *DBC) Select(cols ...string) *dbr.SelectBuilder {
	if dbc.trx == nil {
		return &dbr.SelectBuilder{
			Session: dbc.sess,
			Runner:  dbc.P.DB,
			Columns: cols,
		}
	}

	return &dbr.SelectBuilder{
		Session: dbc.trx.Session,
		Runner:  dbc.trx.Tx,
		Columns: cols,
	}
}

// SelectBySQL creates a new SelectBuilder for the given SQL string and arguments
func (dbc *DBC) SelectBySQL(sql string, args ...interface{}) *dbr.SelectBuilder {
	if dbc.trx == nil {
		return &dbr.SelectBuilder{
			Session:      dbc.sess,
			Runner:       dbc.P.DB,
			RawFullSql:   sql,
			RawArguments: args,
		}
	}

	return &dbr.SelectBuilder{
		Session:      dbc.trx.Session,
		Runner:       dbc.trx.Tx,
		RawFullSql:   sql,
		RawArguments: args,
	}
}

//Note: Creates a new slice of dbr.SelectBuilder for the given SQL string
//Supported chunking only for first IN-list
func (dbc *DBC) SelectBySQLWithChunkedIN(sql string, chunkSize int, args ...interface{}) []*dbr.SelectBuilder {
	var builders []*dbr.SelectBuilder
	listsForIN := make(map[int]reflect.Value)
	chunkedListsForIN := make(map[int][]reflect.Value)

	for i, arg := range args {
		valueOfDest := reflect.ValueOf(arg)
		kindOfDest := valueOfDest.Kind()
		if kindOfDest == reflect.Slice || kindOfDest == reflect.Array {
			//Note: i is index of arg
			listsForIN[i] = valueOfDest
		}
	}

	if len(listsForIN) == 0 {
		builder := dbc.SelectBySQL(sql, args)
		builders = append(builders, builder)
		return builders
	}

	for index, listForIN := range listsForIN {
		var chunks []reflect.Value
		valuesAmount := listForIN.Len()
		fullChunksAmount := valuesAmount / chunkSize
		modulo := valuesAmount % chunkSize

		for i := 0; i < fullChunksAmount; i++ {
			chunkStartIndex := i * chunkSize
			chunkEndIndex := chunkStartIndex + chunkSize
			chunkValues := listForIN.Slice(chunkStartIndex, chunkEndIndex)
			chunks = append(chunks, chunkValues)
		}

		if modulo > 0 {
			chunkStartIndex := fullChunksAmount * chunkSize
			chunkEndIndex := chunkStartIndex + modulo
			chunkValues := listForIN.Slice(chunkStartIndex, chunkEndIndex)
			chunks = append(chunks, chunkValues)
		}

		chunkedListsForIN[index] = chunks
	}

	//TODO: Supported only first IN-list, because the several IN-lists can generate too many sql queries(chunks amount of 1-st IN-list * chunks amount of 2-d IN-list * etc.)
	for argIndex, argChunks := range chunkedListsForIN {
		for c := 0; c < len(argChunks); c++ {
			argChunk := argChunks[c]
			var sqlArgs = make([]interface{}, len(args))

			//NOTE: Fill args for a separate sql query
			for i := 0; i < len(args); i++ {
				if i != argIndex {
					sqlArgs[i] = args[i]
				} else {
					sqlArgs[i] = argChunk.Interface()
				}
			}

			builder := dbc.SelectBySQL(sql, sqlArgs...)
			builders = append(builders, builder)
		}
	}

	return builders
}

// InsertInto instantiates a InsertBuilder for the given table
func (dbc *DBC) InsertInto(into string) *dbr.InsertBuilder {
	if dbc.trx == nil {
		return &dbr.InsertBuilder{
			Session: dbc.sess,
			Runner:  dbc.P.DB,
			Into:    into,
		}
	}

	return &dbr.InsertBuilder{
		Session: dbc.trx.Session,
		Runner:  dbc.trx.Tx,
		Into:    into,
	}
}

func IsDuplicateRecordError(err error) bool {
	var myerr *mysql.MySQLError
	if errors.As(err, &myerr) && myerr.Number == 1062 {
		return true
	}
	return false
}

func IsNotFoundError(err error) bool {
	return errors.Is(err, dbr.ErrNotFound)
}

func LastInsertIdU32(res sql.Result) uint32 {
	lastId, _ := res.LastInsertId()
	return uint32(lastId)
}