C# (CSharp) SharpHsql Select.GetResult Exemples

Langage de programmation: C# (CSharp)

Espace de nommage/Pack: SharpHsql

Class/Type: Select

Méthode/Fonction: GetResult

Exemples au hotexamples.com: 2

C# (CSharp) SharpHsql Select.GetResult - 2 exemples trouvés. Ce sont les exemples réels les mieux notés de SharpHsql.Select.GetResult extraits de projets open source. Vous pouvez noter les exemples pour nous aider à en améliorer la qualité.

Méthodes fréquemment utilisées

Afficher Cacher

GetResult(2)

CheckResolved(1)

GetValue(1)

Resolve(1)

Méthodes fréquemment utilisées

GetResult (2)

CheckResolved (1)

GetValue (1)

Resolve (1)

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Exemple #1

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Fichier : Expression.cs Projet : maikebing/SharpHSQL

/// <summary> /// Test the value list for True or False. /// </summary> /// <param name="o"></param> /// <param name="datatype"></param> /// <returns></returns> private bool TestValueList(object o, ColumnType datatype) { if (_type == ExpressionType.ValueList) { if (datatype != _columnType) { o = Column.ConvertToObject(o, _columnType); } return(_list.ContainsKey(o)); } else if (_type == ExpressionType.Query) { // todo: convert to valuelist before if everything is resolvable Result r = sSelect.GetResult(0, null); Record n = r.Root; ColumnType type = r.Type[0]; if (datatype != type) { o = Column.ConvertToObject(o, type); } while (n != null) { object o2 = n.Data[0]; if (o2 != null && o2.Equals(o)) { return(true); } n = n.Next; } return(false); } throw Trace.Error(Trace.WRONG_DATA_TYPE); }

Exemple #2

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// [email protected] end changes from 1.50 // [email protected] begin changes from 1.50 public Result GetResult(int start, int cnt, Channel cChannel) { int maxrows = start + cnt; //<-new, cut definitly // [email protected] begin changes from 1.50 Resolve(); CheckResolved(); if (sUnion != null && sUnion.iResultLen != iResultLen) { throw Trace.Error(Trace.COLUMN_COUNT_DOES_NOT_MATCH); } int len = eColumn.Length; Result r = new Result(len); bool aggregated = false; bool grouped = false; for (int i = 0; i < len; i++) { Expression e = eColumn[i]; r.Type[i] = e.ColumnType; if (e.IsAggregate) { aggregated = true; } } object[] agg = null; if (aggregated) { agg = new object[len]; } if (iGroupLen > 0) { // has been set in Parser grouped = true; } bool simple_maxrows = false; if (maxrows != 0 && grouped == false && sUnion == null && iOrderLen == 0) { simple_maxrows = true; } int count = 0; int filter = tFilter.Length; bool[] first = new bool[filter]; int level = 0; while (level >= 0) { bool found = false; if (filter > 0) { TableFilter t = tFilter[level]; if (!first[level]) { found = t.FindFirst(); first[level] = found; } else { found = t.Next(); first[level] = found; } } if (!found) { level--; if (!OnlyVars) { continue; } } if (level < filter - 1) { level++; continue; } if (eCondition == null || eCondition.Test()) { object[] row = new object[len]; for (int i = 0; i < len; i++) { row[i] = eColumn[i].GetValue(); if (cChannel != null && eColumn[i].IsVarAssign) { cChannel.SetDeclareValue(eColumn[i].Arg.ColumnName, row[i]); } } count++; if (aggregated && !grouped) { UpdateAggregateRow(agg, row, len); } else { r.Add(row); if (simple_maxrows && count >= maxrows) { break; } } } } if (aggregated && !grouped) { AddAggregateRow(r, agg, len, count); } else if (grouped) { int[] order = new int[iGroupLen]; int[] way = new int[iGroupLen]; for (int i = iResultLen, j = 0; j < iGroupLen; i++, j++) { order[j] = i; way[j] = 1; } r = SortResult(r, order, way); Record n = r.Root; Result x = new Result(len); for (int i = 0; i < len; i++) { x.Type[i] = r.Type[i]; } do { object[] row = new object[len]; count = 0; bool newgroup = false; while (n != null && newgroup == false) { count++; for (int i = 0; i < iGroupLen; i++) { if (n.Next == null) { newgroup = true; } else if (Column.Compare(n.Data[i], n.Next.Data[i], r.Type[i]) != 0) { // can't use .Equals because 'null' is also one group newgroup = true; } } UpdateAggregateRow(row, n.Data, len); n = n.Next; } AddAggregateRow(x, row, len, count); } while (n != null); r = x; } if (iOrderLen != 0) { int[] order = new int[iOrderLen]; int[] way = new int[iOrderLen]; for (int i = iResultLen, j = 0; j < iOrderLen; i++, j++) { order[j] = i; way[j] = eColumn[i].IsDescending ? -1 : 1; } r = SortResult(r, order, way); } // the result maybe is bigger (due to group and order by) // but don't tell this anybody else r.SetColumnCount(iResultLen); if (bDistinct) { r = RemoveDuplicates(r); } for (int i = 0; i < iResultLen; i++) { Expression e = eColumn[i]; r.Label[i] = e.Alias; r.Table[i] = e.TableName; r.Name[i] = e.ColumnName; } if (sUnion != null) { Result x = sUnion.GetResult(0, cChannel); if (UnionType == SelectType.Union) { r.Append(x); r = RemoveDuplicates(r); } else if (UnionType == SelectType.UnionAll) { r.Append(x); } else if (UnionType == SelectType.Intersect) { r = RemoveDuplicates(r); x = RemoveDuplicates(x); r = RemoveDifferent(r, x); } else if (UnionType == SelectType.Except) { r = RemoveDuplicates(r); x = RemoveDuplicates(x); r = RemoveSecond(r, x); } } if (maxrows > 0 && !simple_maxrows) { TrimResult(r, maxrows); } // [email protected] begin changes from 1.50 if (start > 0) { //then cut the first 'start' elements TrimResultFront(r, start); } // [email protected] end changes from 1.50 return(r); }