package qgen import ( "database/sql" //"fmt" "strconv" ) type accDeleteBuilder struct { table string where string dateCutoff *dateCutoff // We might want to do this in a slightly less hacky way build *Accumulator } func (b *accDeleteBuilder) Where(w string) *accDeleteBuilder { if b.where != "" { b.where += " AND " } b.where += w return b } func (b *accDeleteBuilder) DateCutoff(col string, quantity int, unit string) *accDeleteBuilder { b.dateCutoff = &dateCutoff{col, quantity, unit, 0} return b } func (b *accDeleteBuilder) DateOlderThan(col string, quantity int, unit string) *accDeleteBuilder { b.dateCutoff = &dateCutoff{col, quantity, unit, 1} return b } /*func (b *accDeleteBuilder) Prepare() *sql.Stmt { return b.build.SimpleDelete(b.table, b.where) }*/ // TODO: Fix this nasty hack func (b *accDeleteBuilder) Prepare() *sql.Stmt { // TODO: Phase out the procedural API and use the adapter's OO API? The OO API might need a bit more work before we do that and it needs to be rolled out to MSSQL. if b.dateCutoff != nil { dBuilder := b.build.GetAdapter().Builder().Delete().FromAcc(b) return b.build.prepare(b.build.GetAdapter().ComplexDelete(dBuilder)) } return b.build.SimpleDelete(b.table, b.where) } func (b *accDeleteBuilder) Run(args ...interface{}) (int, error) { stmt := b.Prepare() if stmt == nil { return 0, b.build.FirstError() } res, err := stmt.Exec(args...) if err != nil { return 0, err } lastID, err := res.LastInsertId() return int(lastID), err } type accUpdateBuilder struct { up *updatePrebuilder build *Accumulator } func (u *accUpdateBuilder) Set(set string) *accUpdateBuilder { u.up.set = set return u } func (u *accUpdateBuilder) Where(where string) *accUpdateBuilder { if u.up.where != "" { u.up.where += " AND " } u.up.where += where return u } func (b *accUpdateBuilder) DateCutoff(col string, quantity int, unit string) *accUpdateBuilder { b.up.dateCutoff = &dateCutoff{col, quantity, unit, 0} return b } func (b *accUpdateBuilder) DateOlderThan(col string, quantity int, unit string) *accUpdateBuilder { b.up.dateCutoff = &dateCutoff{col, quantity, unit, 1} return b } func (b *accUpdateBuilder) WhereQ(sel *selectPrebuilder) *accUpdateBuilder { b.up.whereSubQuery = sel return b } func (b *accUpdateBuilder) Prepare() *sql.Stmt { if b.up.whereSubQuery != nil { return b.build.prepare(b.build.adapter.SimpleUpdateSelect(b.up)) } return b.build.prepare(b.build.adapter.SimpleUpdate(b.up)) } func (b *accUpdateBuilder) Exec(args ...interface{}) (res sql.Result, err error) { query, err := b.build.adapter.SimpleUpdate(b.up) if err != nil { return res, err } //fmt.Println("query:", query) return b.build.exec(query, args...) } type AccSelectBuilder struct { table string columns string where string orderby string limit string dateCutoff *dateCutoff // We might want to do this in a slightly less hacky way inChain *AccSelectBuilder inColumn string build *Accumulator } func (b *AccSelectBuilder) Columns(cols string) *AccSelectBuilder { b.columns = cols return b } func (b *AccSelectBuilder) Cols(cols string) *AccSelectBuilder { b.columns = cols return b } func (b *AccSelectBuilder) Where(where string) *AccSelectBuilder { if b.where != "" { b.where += " AND " } b.where += where return b } // TODO: Don't implement the SQL at the accumulator level but the adapter level func (b *AccSelectBuilder) In(col string, inList []int) *AccSelectBuilder { if len(inList) == 0 { return b } // TODO: Optimise this where := col + " IN(" for _, item := range inList { where += strconv.Itoa(item) + "," } where = where[:len(where)-1] + ")" if b.where != "" { where += " AND " + b.where } b.where = where return b } // TODO: Don't implement the SQL at the accumulator level but the adapter level func (b *AccSelectBuilder) InPQuery(col string, inList []int) (*sql.Rows, error) { if len(inList) == 0 { return nil, sql.ErrNoRows } // TODO: Optimise this where := col + " IN(" idList := make([]interface{}, len(inList)) for i, id := range inList { idList[i] = strconv.Itoa(id) where += "?," } where = where[0:len(where)-1] + ")" if b.where != "" { where += " AND " + b.where } b.where = where return b.Query(idList...) } func (b *AccSelectBuilder) InQ(col string, sb *AccSelectBuilder) *AccSelectBuilder { b.inChain = sb b.inColumn = col return b } func (b *AccSelectBuilder) DateCutoff(col string, quantity int, unit string) *AccSelectBuilder { b.dateCutoff = &dateCutoff{col, quantity, unit, 0} return b } func (b *AccSelectBuilder) DateOlderThanQ(col, unit string) *AccSelectBuilder { b.dateCutoff = &dateCutoff{col, 0, unit, 11} return b } func (b *AccSelectBuilder) Orderby(orderby string) *AccSelectBuilder { b.orderby = orderby return b } func (b *AccSelectBuilder) Limit(limit string) *AccSelectBuilder { b.limit = limit return b } func (b *AccSelectBuilder) Prepare() *sql.Stmt { // TODO: Phase out the procedural API and use the adapter's OO API? The OO API might need a bit more work before we do that and it needs to be rolled out to MSSQL. if b.dateCutoff != nil || b.inChain != nil { selectBuilder := b.build.GetAdapter().Builder().Select().FromAcc(b) return b.build.prepare(b.build.GetAdapter().ComplexSelect(selectBuilder)) } return b.build.SimpleSelect(b.table, b.columns, b.where, b.orderby, b.limit) } func (b *AccSelectBuilder) ComplexPrepare() *sql.Stmt { selectBuilder := b.build.GetAdapter().Builder().Select().FromAcc(b) return b.build.prepare(b.build.GetAdapter().ComplexSelect(selectBuilder)) } func (b *AccSelectBuilder) query() (string, error) { // TODO: Phase out the procedural API and use the adapter's OO API? The OO API might need a bit more work before we do that and it needs to be rolled out to MSSQL. if b.dateCutoff != nil || b.inChain != nil { selectBuilder := b.build.GetAdapter().Builder().Select().FromAcc(b) return b.build.GetAdapter().ComplexSelect(selectBuilder) } return b.build.adapter.SimpleSelect("", b.table, b.columns, b.where, b.orderby, b.limit) } func (b *AccSelectBuilder) Query(args ...interface{}) (*sql.Rows, error) { stmt := b.Prepare() if stmt != nil { return stmt.Query(args...) } return nil, b.build.FirstError() } type AccRowWrap struct { row *sql.Row err error } func (wrap *AccRowWrap) Scan(dest ...interface{}) error { if wrap.err != nil { return wrap.err } return wrap.row.Scan(dest...) } // TODO: Test to make sure the errors are passed up properly func (b *AccSelectBuilder) QueryRow(args ...interface{}) *AccRowWrap { stmt := b.Prepare() if stmt != nil { return &AccRowWrap{stmt.QueryRow(args...), nil} } return &AccRowWrap{nil, b.build.FirstError()} } // Experimental, reduces lines func (b *AccSelectBuilder) Each(h func(*sql.Rows) error) error { query, err := b.query() if err != nil { return err } rows, err := b.build.query(query) if err != nil { return err } defer rows.Close() for rows.Next() { if err = h(rows); err != nil { return err } } return rows.Err() } func (b *AccSelectBuilder) EachInt(h func(int) error) error { query, err := b.query() if err != nil { return err } rows, err := b.build.query(query) if err != nil { return err } defer rows.Close() for rows.Next() { var theInt int err = rows.Scan(&theInt) if err != nil { return err } if err = h(theInt); err != nil { return err } } return rows.Err() } type accInsertBuilder struct { table string columns string fields string build *Accumulator } func (b *accInsertBuilder) Columns(cols string) *accInsertBuilder { b.columns = cols return b } func (b *accInsertBuilder) Fields(fields string) *accInsertBuilder { b.fields = fields return b } func (b *accInsertBuilder) Prepare() *sql.Stmt { return b.build.SimpleInsert(b.table, b.columns, b.fields) } func (b *accInsertBuilder) Exec(args ...interface{}) (res sql.Result, err error) { query, err := b.build.adapter.SimpleInsert("", b.table, b.columns, b.fields) if err != nil { return res, err } return b.build.exec(query, args...) } func (b *accInsertBuilder) Run(args ...interface{}) (int, error) { query, err := b.build.adapter.SimpleInsert("", b.table, b.columns, b.fields) if err != nil { return 0, err } res, err := b.build.exec(query, args...) if err != nil { return 0, err } lastID, err := res.LastInsertId() return int(lastID), err } type accBulkInsertBuilder struct { table string columns string fieldSet []string build *Accumulator } func (b *accBulkInsertBuilder) Columns(cols string) *accBulkInsertBuilder { b.columns = cols return b } func (b *accBulkInsertBuilder) Fields(fieldSet ...string) *accBulkInsertBuilder { b.fieldSet = fieldSet return b } func (b *accBulkInsertBuilder) Prepare() *sql.Stmt { return b.build.SimpleBulkInsert(b.table, b.columns, b.fieldSet) } func (b *accBulkInsertBuilder) Exec(args ...interface{}) (res sql.Result, err error) { query, err := b.build.adapter.SimpleBulkInsert("", b.table, b.columns, b.fieldSet) if err != nil { return res, err } return b.build.exec(query, args...) } func (b *accBulkInsertBuilder) Run(args ...interface{}) (int, error) { query, err := b.build.adapter.SimpleBulkInsert("", b.table, b.columns, b.fieldSet) if err != nil { return 0, err } res, err := b.build.exec(query, args...) if err != nil { return 0, err } lastID, err := res.LastInsertId() return int(lastID), err } type accCountBuilder struct { table string where string limit string dateCutoff *dateCutoff // We might want to do this in a slightly less hacky way inChain *AccSelectBuilder inColumn string build *Accumulator } func (b *accCountBuilder) Where(w string) *accCountBuilder { if b.where != "" { b.where += " AND " } b.where += w return b } func (b *accCountBuilder) Limit(limit string) *accCountBuilder { b.limit = limit return b } func (b *accCountBuilder) DateCutoff(column string, quantity int, unit string) *accCountBuilder { b.dateCutoff = &dateCutoff{column, quantity, unit, 0} return b } // TODO: Fix this nasty hack func (b *accCountBuilder) Prepare() *sql.Stmt { // TODO: Phase out the procedural API and use the adapter's OO API? The OO API might need a bit more work before we do that and it needs to be rolled out to MSSQL. if b.dateCutoff != nil || b.inChain != nil { selBuilder := b.build.GetAdapter().Builder().Count().FromCountAcc(b) selBuilder.columns = "COUNT(*)" return b.build.prepare(b.build.GetAdapter().ComplexSelect(selBuilder)) } return b.build.SimpleCount(b.table, b.where, b.limit) } func (b *accCountBuilder) Total() (total int, err error) { stmt := b.Prepare() if stmt == nil { return 0, b.build.FirstError() } err = stmt.QueryRow().Scan(&total) return total, err } // TODO: Add a Sum builder for summing viewchunks up into one number for the dashboard?